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2018年47卷12期23篇论文

 

<RECORD 1>

Accession number:20190406418869

Title:Fast Modulation Measurement Profilometry Technology Based on Cross Grating Projection

Authors:Li, Xu-Qin (1); Su, Xian-Yu (1); Chen, Wen-Jing (1)

Author affiliation:(1) Opto-Electronic Department, College of Electronics and Information Engineering, Sichuan University, Chengdu; 610064, China

Corresponding author:Chen, Wen-Jing(chengwj0409@scu.edu.cn)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1212002

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:In the coaxial optical measurement system, a horizontal grating and a vertical grating were vertically placed in the light path along the optical axis separately, and the tested object was placed just within the image planes of the two gratings. The orthogonal grating fringe pattern is captured by CCD camera which is installed in the same optical axis. The modulation distributions corresponding to the vertical and horizontal components of the cross grating pattern were obtained by Fourier transform, filtering and inverse Fourier transform operation. The profile of the tested object was reconstructed from ratio of the two modulations. Under the condition of geometrical optics approximation, the intensity expressions of the image of the two grating projection were given. The influence of the distance of two gratings and aperture size of projection lens on the measurement result was discussed. A standard plane and a complex object were measured by this methods. Experiment results show that the method can quickly and effectively restore the 3D information of the object.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:15

Main heading:Modulation

Controlled terms:CCD cameras - Fourier transforms - Geometrical optics - Inverse problems - Optical data processing - Profilometry

Uncontrolled terms:Depth of field - Fast measurement - Geometrical optics approximations - Horizontal components - Inverse Fourier transforms - Modulation measurement profilometry - Optical measurement systems - Orthogonal grating

Classification code:714.2  Semiconductor Devices and Integrated Circuits - 723.2  Data Processing and Image Processing - 741.1  Light/Optics - 921.3  Mathematical Transformations

DOI:10.3788/gzxb20194812.1212002

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 2>

Accession number:20190406418868

Title:Phase Unwrapping Method of InSAR Interferogram with Local Noise Patch

Authors:Guo, Yuan (1); Du, Song-Ying (1)

Author affiliation:(1) College of Computer and Control Engineering, Qiqihar University, Qiqihar; Heilongjiang; 161006, China

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1212001

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:Four-direction weighted least squares phase unwrapping iterations algorithm is proposed based on regional mask filtering and the method of quality map leading weigh to solve the problem that interferometric synthetic aperture radar interferogram is difficult for phase unwrapping due to local noise, shadows or stripe breaks, which result in residual focus and unreliable data patches. Firstly, the noise patch region is masked and filtered. Therefore the real phase information is preserved and the error propagation is prevented effectively. Then, the four-direction least-squares iteration method, which can redefine the weight value by using the quality map method which can describe the maximum phase gradient and the change of phase derivative, is used to fill the mask region to suppress the error propagation, increase the computing speed and improve the over-smoothing effect. Simulation and real data experiments show that the proposed method has high unwrapping accuracy and can restore the original phase of the local patch of interferometric synthetic aperture radar interferogram. Compared with the traditional least squares method, it has the advantages of larger bandwidth of the difference equation matrix, better filling effect, less number of iterations and higher accuracy, which can solve the difficulty of interferometric synthetic aperture radar image unwrapping caused by noise concentration.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:19

Main heading:Synthetic aperture radar

Controlled terms:Difference equations - Interferometry - Iterative methods - Least squares approximations - Optical data processing - Optical variables measurement

Uncontrolled terms:Interference fringe - Iteration - Local noise - Optical measurement - Phase unwrapping - Quality maps

Classification code:716.2  Radar Systems and Equipment - 723.2  Data Processing and Image Processing - 921.6  Numerical Methods - 941.4  Optical Variables Measurements

DOI:10.3788/gzxb20184712.1212001

Funding Details: Number; Sponsor: 61872204; National Natural Science Foundation of China - Number; Sponsor: F2017029; Natural Science Foundation of Heilongjiang Province

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 3>

Accession number:20190406418861

Title:Ion Beam Etching Assisted Femtosecond Laser Machining to Manufacture Silicon Carbide Micro-optical Components

Authors:Yu, Lei (1); Yang, Shuang-Ning (1); Liu, Xue-Qing (1, 2); Li, De-Hui (1)

Author affiliation:(1) State Key Laboratory on Integrated Optoelectronics, Jilin University, Changchun; 130012, China; (2) State Key Laboratory of Precision Measurement Technology and Instruments, Tsinghua University, Beijing; 100084, China

Corresponding author:Li, De-Hui(lidh@jlu.edu.cn)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1214003

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:A hybrid technology combined ion beam etching and femtosecond laser machining was proposed for solving the problem of high surface roughness when processing of hard materials by femtosecond laser machining. First, silicon carbide micro/nano structures were fabricated by femtosecond laser machining. Then, the silicon carbide micro/nano structures were etched by ion beam etching. Ion beam etching can adjust the width and depth of the line structure, and reduce the surface roughness of the structures from about 106 nm to 11.8 nm. The silicon carbide Fresnel zone plate prepared by this technology exhibits well focusing and imaging properties.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:17

Main heading:Laser beam machining

Controlled terms:Etching - Femtosecond lasers - Hybrid materials - Ion beams - Ions - Laser materials processing - Microoptics - Semiconductor device manufacture - Semiconductor lasers - Silicon carbide  - Surface roughness - Ultrafast lasers

Uncontrolled terms:Femtosecond laser machining - Fresnel zone plate - Hybrid technology - Imaging properties - Ion beam etching - Line structures - Micro-optical components - Micro/nanostructures

Classification code:714.2  Semiconductor Devices and Integrated Circuits - 741.1  Light/Optics - 744  Lasers - 802.2  Chemical Reactions - 804.2  Inorganic Compounds - 931.2  Physical Properties of Gases, Liquids and Solids - 932.1  High Energy Physics

Numerical data indexing:Size 1.06e-07m to 1.18e-08m

DOI:10.3788/gzxb20184712.1214003

Funding Details: Number; Sponsor: 2018M631456; China Postdoctoral Science Foundation - Number; Sponsor: 61435005; National Natural Science Foundation of China - Number; Sponsor: 61590930; National Natural Science Foundation of China - Number; Sponsor: 91423102; National Natural Science Foundation of China

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 4>

Accession number:20190406418867

Title:Preparation Process and Stress Study of Ge-doped Silica Film Waveguide

Authors:Sun, Qing-Yu (1); Sun, Zhe-Yu (2); Xing, Wen-Chao (2); Sun, De-Gui (1)

Author affiliation:(1) School of Science, Changchun University of Science and Technology, Changchun; 130022, China; (2) Jilin Sino-Microelectronics Co. Ltd, Jilin; Jilin; 130031, China

Corresponding author:Sun, De-Gui(sundg@cust.edu.cn)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1231003

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:Silica films were deposited on a silicon substrate by a plasma enhanced chemical vapor deposition method to study the stress variation and the refractive index distribution at different process conditions. The stress tester was used to measure the deformation of the wafer before and after coating, allowing the calculation of the film stress, and the prism coupler was used to measure the refractive index distribution. Under the same condition, when the flow ratio of SiH<inf>4</inf> to N<inf>2</inf>O is set to 24, 27.6 and 30, the average refractive index of the film are 1.466 7, 1.459 2 and 1.455 7, respectively, at the wavelength of 1 539 nm, and the correspoonding compressive stress of the film are -50 MPa, -200 MPa, and -430 MPa, respectively. When the flow ratio of SiH<inf>4</inf> to N<inf>2</inf>O is set to 22.6, 24, and 27.6 after minxing 8.3&times;10<sup>-7</sup> m<sup>3</sup>/s GeH<inf>4</inf>, the average refractive indices are 1.4758, 1.4714 and 1.4633, respectively, and the corresponding wafer stresses are 25 MPa, -210 MPa and -270 MPa, respectively, which is a changing process from the tensile stress to the compressive stress. The result show that at the same flow ratio of SiH<inf>4</inf> to N<inf>2</inf>O, GeH<inf>4</inf> diffusion increases the refractive index and the compressive stress of the film. It turns out that with the reasonable selection of the process conditions, a refractive index stabilized silicon oxide waveguide film can be prepared, thereby improving the yield of the device over the entire wafer.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:16

Main heading:Film preparation

Controlled terms:Compressive stress - Germanium compounds - Optical waveguides - Plasma CVD - Plasma enhanced chemical vapor deposition - Refractive index - Silica - Silicon oxides - Silicon wafers - Stresses  - Thin films - Waveguides

Uncontrolled terms:Ge-doped silica - Preparation process - Process condition - Refractive-index distribution - Silicon substrates - SiO2 film - Stress variations - Waveguide films

Classification code:714.2  Semiconductor Devices and Integrated Circuits - 714.3  Waveguides - 741.1  Light/Optics - 802.2  Chemical Reactions - 804  Chemical Products Generally - 813.1  Coating Techniques

Numerical data indexing:Pressure -2.00e+08Pa, Pressure -2.10e+08Pa, Pressure -2.70e+08Pa, Pressure -4.30e+08Pa, Pressure -5.00e+07Pa, Pressure 2.50e+07Pa, Size 1.54e-06m

DOI:10.3788/gzxb20184712.1231003

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 5>

Accession number:20190406418873

Title:Criterion Influence of Multiple Signal Classification Algorithm for Spatial Heterodyne Signal Extraction

Authors:Wang, Xin-Qiang (1, 3); Wang, Huan (1, 3); Xiong, Wei (2); Ye, Song (1, 3); Wang, Jie-Jun (1, 3); Zhang, Wen-Tao (1, 3); Wang, Fang-Yuan (1, 3); Gan, Yong-Ying (1, 3)

Author affiliation:(1) School of Electronic Engineering and Automation, Guilin University of Electronic Technology, Guilin; Guangxi; 541004, China; (2) Key Laboratory of Optical Calibration and Characterization, Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Hefei; 230031, China; (3) Guangxi Key Laboratory of Optoelectronic Information Processing, Guilin; Guangxi; 541004, China

Corresponding author:Gan, Yong-Ying(sugargan@163.com)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1228001

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:To overcome the limitations of traditional Fourier transform algorithm in spectral restoration, a modern spectral estimation method, multiple signal classification (MUSIC) algorithm, is introduced to recover spatial heterodyne signals based on the characteristics of spatial heterodyne spectroscopy. Criterion Autoregressive Transfer function (CAT) criterion is used to estimate the spatial dimension. The results show that there is a deviation between direct fixed dimension value by CAT criterion and the optimal one, while the direct fixed dimension value minus 3 can be regarded as a new improved criterion for spectral restoration. When applied to the spatial heterodyne interference data, the spectral restoration results of this improved CAT criterion as well as its related MUSIC algorithm is better than those of direct Fourier transform. Spectral Angel Mapper (SAM) and Mean-Squared Error (MSE) are used as the performance evaluation indexes. Compared with the ideal spectrum, SAM of MUSIC algorithm restoration spectra is 0.764 and MSE is 0.040 for potassium bimodal peak signal processing. For the multi-spectrum peak signal processing of Ne lamp, SAM is 0.806 and MSE is 0.046. The results of polychromatic light are 0.988 and 0.089,respectively. Indicating that this adaptively dimensioned MUSIC algorithm with improved CAT criterion has advantages to the spatial heterodyne spectral restoration and improves the power spectrum restoration effect.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:15

Main heading:Computer music

Controlled terms:Data mining - Heterodyning - Mean square error - Remote sensing - Restoration - Schlieren systems - Spectrometers - Spectrum analysis

Uncontrolled terms:Fixed dimension - Fourier transform algorithms - Multiple signal classification algorithm - Performance evaluations - Polychromatic lights - Spatial heterodyne - Spatial heterodyne spectroscopies - Spectral estimation methods

Classification code:723.2  Data Processing and Image Processing - 723.5  Computer Applications - 741.3  Optical Devices and Systems - 742.2  Photographic Equipment - 922.2  Mathematical Statistics

DOI:10.3788/gzxb20184712.1228001

Funding Details: Number; Sponsor: 14561079; National Natural Science Foundation of China

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 6>

Accession number:20190406418863

Title:Interface Engineering of Graphene/silicon Solar Cells by Introducing an Ultrathin Magnesium Oxide Interlayer

Authors:Zhao, Jian-Jiang (1); Xu, Ming-Sheng (2)

Author affiliation:(1) State Key Lab of Silicon Materials, School of Material Science and Engineering, Zhejiang University, Hangzhou; 310027, China; (2) State Key Lab of Silicon Materials, College of Information Science and Electronic Engineering, Zhejiang University, Hangzhou; 310027, China

Corresponding author:Xu, Ming-Sheng(msxu@zju.edu.cn)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1223002

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:In order to investigate the characteristics of the back-side surface, i.e., Al/Si, of graphene/Si solar cells, a ultra-thin magnesium oxide interlayer with various thickness between the Al electrode and the silicon substrate was prepared by using a successive thermal evaporation deposition technology. The current-voltage curves, external quantum efficiency, series resistance, and back contact resistance of the graphene/Si solar cells with different thickness of the magnesium oxide interlayer were measured. The results show that the photoelectric conversion efficiency, series resistance and back contact resistance increased first and then decreased with the increase in the magnesium oxide thickness, and the device performance is best when the thickness of magnesium oxide layer is 1 nm. The photoelectric conversion efficiency, series resistance and back contact resistance of the solar cells with 0 nm and 1 nm MgO are 2.90%, 4.2 &Omega;, 9.6 &Omega;, and 5.53%, 1.8 &Omega;, 3.2 &Omega;.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:21

Main heading:Solar cells

Controlled terms:Cell engineering - Contact resistance - Conversion efficiency - Efficiency - Graphene - Magnesia - Photoelectricity - Silicon - Silicon solar cells - Thermal evaporation

Uncontrolled terms:Current voltage curve - Different thickness - External quantum efficiency - Interface engineering - Photo-electric conversion efficiency - Series resistances - Silicon substrates - Thermal evaporation deposition

Classification code:461.1  Biomedical Engineering - 525.5  Energy Conversion Issues - 549.3  Nonferrous Metals and Alloys excluding Alkali and Alkaline Earth Metals - 701.1  Electricity: Basic Concepts and Phenomena - 702.3  Solar Cells - 761  Nanotechnology - 804  Chemical Products Generally - 804.2  Inorganic Compounds - 913.1  Production Engineering

Numerical data indexing:Electrical_Resistance 1.80e+00Ohms, Electrical_Resistance 3.20e+00Ohms, Electrical_Resistance 4.20e+00Ohms, Electrical_Resistance 9.60e+00Ohms, Percentage 2.90e+00%, Percentage 5.53e+00%, Size 0.00e+00m, Size 1.00e-09m

DOI:10.3788/gzxb20184712.1223002

Funding Details: Number; Sponsor: 51472219; National Natural Science Foundation of China - Number; Sponsor: 51672244; National Natural Science Foundation of China

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 7>

Accession number:20190406418855

Title:Coupling Efficiency and Influence Factors of Spatial Light into Few-mode Fiber

Authors:Wang, Chao (1, 2); Fan, Xue-Bing (1, 2); Tong, Shou-Feng (2); Li, Ying-Chao (2); Jiang, Lun (1, 2); Liu, Zhuang (2); Shi, Hao-Dong (2); Jiang, Hui-Lin (1, 2)

Author affiliation:(1) School of Photo-Electronic Engineering, Changchun University of Science and Technology, Changchun; 130022, China; (2) National and Local joint Engineering Research Center of Space Optoelectronics Technology, Changchun University of Science and Technology, Changchun; 130022, China

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1206001

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:The coupling efficiency theory model of the spatial light into few-mode fiber in the different influence factor is established. Takes two-mode fiber for example to study the relative aperture effect on coupling efficiency. When the relative aperture is 0.17, the highest coupling efficiency is 82.96%. The coupling efficiency in the presence of tilt, defocus and random angular jitter is studied, the experiment show that when the lateral offset is 4 &mu;m, the coupling efficiency of two-mode fiber is higher than single-mode fiber about 10.23%, when the axial offset is 125 &mu;m, the coupling efficiency of two-mode fiber is higher than single-mode fiber about 11.24%, when the random jitter amplitude is 5 &mu;m, the coupling efficiency of two-mode fiber is higher than single-mode fiber about 12.1%. Accordingly, the few-mode fiber can inhibit interference factor such as tilt, defocus and random angular jitter when the signal reception.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:21

Main heading:Optical fiber communication

Controlled terms:Efficiency - Fibers - Jitter - Optical fiber coupling - Single mode fibers

Uncontrolled terms:Coupling efficiency - Few-mode fibers - Fiber couplings - Optical pre-amplifiers - Relative aperture - Space optical communication

Classification code:717.1  Optical Communication Systems - 741.1.2  Fiber Optics - 913.1  Production Engineering

Numerical data indexing:Percentage 1.02e+01%, Percentage 1.12e+01%, Percentage 1.21e+01%, Percentage 8.30e+01%, Size 1.25e-04m, Size 4.00e-06m, Size 5.00e-06m

DOI:10.3788/gzxb20184712.1206001

Funding Details: Number; Sponsor: 61701045; National Natural Science Foundation of China - Number; Sponsor: 61805027; National Natural Science Foundation of China - Number; Sponsor: 61805028; National Natural Science Foundation of China

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 8>

Accession number:20190406418871

Title:Simulation and Analysis of Infrared Radiation Transmission in Fog Based on Monte Carlo Method

Authors:Wang, Ting (1); Xu, Jun (1); Zhao, Xuan-Ke (1); Sun, Hong-Hui (1); Gao, Yang (1); Sun, Qi-Yun (1)

Author affiliation:(1) Basic Department, Rocket Force University of Engineering, Xi'an; 710025, China

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1201001

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:In order to study the transmission characteristics of infrared radiation in fog under multiple scattering effect,the extinction parameters and multi-particle scattering phase functions of 1.064 &mu;m, 3.8 &mu;m and 10.6 &mu;m laser in advection fog and radiation fog were calculated based on Mie theory. A radiative transfer model was established by Monte Carlo method. The effects of the size of the receiving screen, the visibility and the transmission distance on the transmittance were analyzed, and the results were compared with Lambert-Beer law. The results show that when the visibility and transmission distance are both 1 km, the number of particles on the receiving screen of 1.064 &mu;m laser in advection fog increases significantly with the increase of receiving screen side length. The attenuation of laser in radiation fog is less than that in advection fog under the same visibility and transmission distance. 10.6 &mu;m laser has good transport properties in advection fog. The stronger the scattering ability and the higher the forward scattering probability, the more obvious the contribution of multiple scattering to the transmittance. The attenuation characteristics of laser transmission in fog are related to extinction coefficient and scattering coefficient. There is an optimal combination of visibility and transmission distance which maximizes the contribution of multiple scattering to the transmittance.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:20

Main heading:Monte Carlo methods

Controlled terms:Advection - Atmospheric optics - Fog - Forward scattering - Infrared radiation - Laser theory - Multiple scattering - Radiative transfer - Visibility

Uncontrolled terms:Attenuation characteristics - Infrared wavelengths - Multiple scattering effect - Radiative transfer model - Scattering co-efficient - Scattering probabilities - Transmission characteristics - Transmittance

Classification code:443.1  Atmospheric Properties - 701  Electricity and Magnetism - 711  Electromagnetic Waves - 741.1  Light/Optics - 741.2  Vision - 744.1  Lasers, General - 922.2  Mathematical Statistics

Numerical data indexing:Size 1.00e+03m, Size 1.06e-05m, Size 1.06e-06m, Size 3.80e-06m

DOI:10.3788/gzxb20184712.1201001

Funding Details: Number; Sponsor: 2018JQ6080; Natural Science Foundation of Shaanxi Province - Number; Sponsor: 61701505; National Natural Science Foundation of China

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 9>

Accession number:20190406418859

Title:Recovery of an Ultra-narrow Linewidth Laser over 100 km Fiber Link

Authors:Ma, Chao-Qun (1, 2); Chen, Guo-Qing (1, 2); Li, Lei (1, 2); Gu, Jiao (1, 2); Zhu, Chun (1, 2); Zhu, Zhuo-Wei (1, 2)

Author affiliation:(1) Institute of Optoelectronic Information Science and Engineering, School of Science, Jiangnan University, Wuxi; Jiangsu; 214122, China; (2) Jiangsu Provincial Research Center of Light Industrial Optoelectronic Engineering and Technology, Jiangnan University, Wuxi; Jiangsu; 214122, China

Corresponding author:Chen, Guo-Qing(jncgq@jiangnan.edu.cn)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1214001

Language:English

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:It is demonstrated that an ultranarrow linewidth laser is recovered after transfer through a 100 km fiber link. The fiber link consists of two 50 km spolled fibers cascaded by a repeater station where a transceiver laser is phase-locked to the transferred light of the 50 km fiber with tracking precision of 3.5&times;10<sup>-19</sup>. To maintain the high spectral purity, two fiber noise compensation modules are employed to compensate for the fiber-induced phase noise in each 50 km fiber. The cascaded scheme enables a large dynamic range for the noise compensation. The fractional frequency instability for the stabilized 100 km fiber is 5.9&times;10<sup>-17</sup> at 1 s averaging time, reaching 6.8&times;10<sup>-19</sup> at 10 000 s. The ultranarrow linewidth laser is recovered at the remote end of the 100 km fiber with additional linewidth of 1 mHz.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:25

Main heading:Fibers

Controlled terms:Acoustic noise measurement - Laser mode locking - Linewidth - Phase noise - Recovery

Uncontrolled terms:Fractional frequencies - High spectral purity - Noise compensation - Optical frequency - Precision transfer - Repeater station - Tracking precision - Ultra-narrow linewidths

Classification code:701.2  Magnetism: Basic Concepts and Phenomena - 744.1  Lasers, General - 751.4  Acoustic Noise - 931.3  Atomic and Molecular Physics

Numerical data indexing:Frequency 1.00e-03Hz, Size 1.00e+05m, Size 5.00e+04m, Time 1.00e+00s, Time 1.00e+04s

DOI:10.3788/gzxb20184712.1214001

Funding Details: Number; Sponsor: 61378037; National Natural Science Foundation of China

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 10>

Accession number:20190406418865

Title:Optical and Electrical Properties of Two-dimensional MoS<inf>2</inf> and Pentacene/MoS<inf>2</inf> Heterojunction

Authors:Bai, Zhi-Ying (1); Deng, Jin-Xiang (1); Pan, Zhi-Wei (1); Zhang, Hao (1); Kong, Le (1); Wang, Gui-Sheng (1)

Author affiliation:(1) College of Applied Sciences, Beijing University of Technology, Beijing; 100124, China

Corresponding author:Deng, Jin-Xiang(jdeng@bjut.edu.cn)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1231001

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:Using sulfur powder and MoO<inf>3</inf> powder as raw materials, the MoS<inf>2</inf> film was synthesized by chemical vapor deposition method, and was characterized by optical microscopy, atomic force microscopy, raman spectroscopy and X-ray diffraction. Results show that the crystal morphology of the MoS<inf>2</inf> is triangle with size of 60 &mu;m and thickness of 0.7 nm; and as one kind of the ideal substrates for surface-enhanced Raman scattering, two-dimensional MoS<inf>2</inf> can promote the charge transfer between the organic molecule and MoS<inf>2</inf>, so the Raman intensity of them are enhanced. The pentacene was adsorbed onto the MoS<inf>2</inf> film by physical vapor deposition method, and the organic-inorganic pentacene/MoS<inf>2</inf> heterojunction with ideal rectifier characteristic was prepared. Analysing the ln(I/V<sup>2</sup>)-1/V curve, it is seen that the Fowler-Nordheim tunnelling phenomenon occured through the heterojunction; logI-logV curve shows that charges transport controled by ohmic conduction at 0~1 V voltages zone, and space-charge-limited currents predominate at over 1 V voltages zone. The research of MoS<inf>2</inf> single-layer film and pentacene film will be contributed to the optoelectronic field.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:27

Main heading:Sulfur compounds

Controlled terms:Atomic force microscopy - Charge transfer - Chemical vapor deposition - Heterojunctions - Layered semiconductors - Molybdenum oxide - Physical vapor deposition - Raman scattering - Substrates - Surface scattering

Uncontrolled terms:Chemical vapor deposition methods - Crystal morphologies - Optical and electrical properties - Optoelectronic fields - Raman enhancement - Space charge limited currents - Surface enhanced Raman Scattering (SERS) - Two-dimensional materials

Classification code:714.2  Semiconductor Devices and Integrated Circuits - 741.1  Light/Optics - 741.3  Optical Devices and Systems - 802.2  Chemical Reactions - 804  Chemical Products Generally - 931  Classical Physics; Quantum Theory; Relativity

Numerical data indexing:Size 6.00e-05m, Voltage 0.00e+00V to 1.00e+00V, Voltage 1.00e+00V

DOI:10.3788/gzxb20184712.1231001

Funding Details: Number; Sponsor: 60376007; National Natural Science Foundation of China - Number; Sponsor: 60876006; National Natural Science Foundation of China

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 11>

Accession number:20190406418866

Title:Phase Transition Characteristics of VO<inf>2</inf> Thin Films Irradiated by Multiband Infrared Laser Studied by Using Pump Probe Method

Authors:Liu, Zhi-Wei (1); Lu, Yuan (1); Feng, Yun-Song (1); Hu, Jie (1); Liu, Rui-Huang (1)

Author affiliation:(1) State Key Laboratory of Pulsed Power Laser Technology, Electronic Countermeasures Institute, National University of Defense Technology, Hefei; 230037, China

Corresponding author:Lu, Yuan(luyuanmail@163.com)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1231002

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:To investigate the phase transformation characteristics of vanadium dioxide thin film irradiated by infrared laser, the experiment was carried out based on pump probe method. First, three groups of VO<inf>2</inf> monocrystalline epitaxial thin films with thickness of 20 nm, 40 nm and 60 nm were prepared by oxy-molecular beam epitaxy, moreover, the CO<inf>2</inf> continuous laser with 10.6 &mu;m was used as the pump beam, nanosecond pulse laser with 1 064 nm and 3 459 nm wavelength were used as probe light respectively, and the three groups of films were irradiated respectively. It was found that the mean values of transmittance reduction of 1 064 nm probe laser after phase transformation of the three groups of films were 5.26%, 6.2% and 8.92%, respectively, and the reflectivity reduction was 3.09%, 6.56% and 4.93%, respectively; for the 3 459 nm probe laser, the mean values of transmittance reduction were 28.4%, 47.78%, 55.13%, and reflectance increase were 6.65%, 17.87% and 7.49% respectively. The results show that the incident laser before and after the phase transformation of VO<inf>2</inf> thin films prepared by molecular beam epitaxy were both mirror reflected; the phase transition properties of 1 064 nm probe were not as significant as that of 3 459 nm probe; the increase of film thickness will reduce the transmittance before the phase change, while the decrease after the phase change is more obvious; before and after the phase transition, the film keeps almost opaque to CO<inf>2</inf> laser. The investigation will provide a reference for the application of film.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:28

Main heading:Thin films

Controlled terms:Carbon dioxide - Carbon dioxide lasers - Film preparation - Infrared lasers - Laser beam effects - Laser mirrors - Molecular beam epitaxy - Molecular beams - Optical pumping - Phase transitions  - Probes - Reflection - Vanadium dioxide

Uncontrolled terms:Continuous lasers - Epitaxial thin films - Monocrystalline - Nanosecond pulse lasers - Phase transition properties - Pump-probe methods - Vanadium dioxide thin films - VO2 thin film

Classification code:744  Lasers - 801.4  Physical Chemistry - 804.2  Inorganic Compounds - 931.3  Atomic and Molecular Physics

Numerical data indexing:Percentage 1.79e+01%, Percentage 2.84e+01%, Percentage 3.09e+00%, Percentage 4.78e+01%, Percentage 4.93e+00%, Percentage 5.26e+00%, Percentage 5.51e+01%, Percentage 6.20e+00%, Percentage 6.56e+00%, Percentage 6.65e+00%, Percentage 7.49e+00%, Percentage 8.92e+00%, Size 1.06e-05m, Size 1.06e-06m, Size 2.00e-08m, Size 3.46e-06m, Size 4.00e-08m, Size 6.00e-08m

DOI:10.3788/gzxb20184712.1231002

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 12>

Accession number:20190406418862

Title:Fabricating Blue Phosphorescent Organic Light-emitting Devices by Using B3PyPPM as Electron Transport Layer

Authors:Lin, Wen-Yan (1); Yu, Ye (1); Peng, Xue-Kang (1); Jin, Yu (1); Wu, Zhi-Jun (1); Liu, Jing-Hua (1, 2)

Author affiliation:(1) College of Information Science and Engineering, Huaqiao University, Xiamen; Fujian; 361021, China; (2) Xiamen Key Laboratory of Mobile Multimedia Communication, Xiamen; Fujian; 361021, China

Corresponding author:Liu, Jing-Hua(jinghualiu1215@yahoo.com.hk)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1223001

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:We fabricated blue phosphorescent organic light-emitting devices of A and B groups by using B3PyPPM as electron transport layer and TCTA and mCP as host. The structure are: ITO/HATCN(5 nm)/TAPC(45 nm)/TCTA:FIrpic(15%,15 nm)/B3PyPPM(X nm)/B3PyPPM:Cs(15%,10 nm)/Al and ITO/HATCN(5 nm)/TAPC(45 nm)/mCP(5 nm)/mCP:FIrpic(15%,15 nm)/B3PyPPM(X nm)/B3PyPPM:Cs(15%,10 nm)/Al. The values of X are 40 nm, 45 nm, 50 nm, and 55 nm, respectively. Experiments show that the devices which use mCP as host is far better than the device using TCTA as host. The maximum luminance of 14 930 cd/m<sup>2</sup> and the maximum current efficiency of 9.9 cd/A are obtained. The efficiency roll-off in EQE is only 10.1% when the luminance rises from 500 cd/m<sup>2</sup> to 3 000 cd/m<sup>2</sup>. Since B3PyMPM can improve the injection characteristics of electrons, the turn-on voltage of the two groups devices are 2.3 V and 2.8 V, respectively, which is lower than the Firpic blue phosphorescent OLEDs fabricated with other electron transport layer materials. At the current density of 30 mA/cm<sup>2</sup>, the spectra of all devices have a major peaks at 474 nm and a vibrational peak at 496 nm. As the thickness of B3PyPPM increases, the intensity of the shoulder increases due to the microcavity effect. The microcavity phenomenon existing in the device is studied in detail by optical simulation.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:22

Main heading:Organic light emitting diodes (OLED)

Controlled terms:Current density - Efficiency - Electron transport properties - Fabrication - Luminance - Microcavities - Organic semiconductor materials - Phosphorescence - Quantum efficiency - Semiconductor doping

Uncontrolled terms:Blue phosphorescent oleds - Current efficiency - Electron transport layers - External quantum efficiency - Microcavity effects - N-Doping - Optical simulation - Organic light-emitting devices

Classification code:701.1  Electricity: Basic Concepts and Phenomena - 712.1  Semiconducting Materials - 712.1.2  Compound Semiconducting Materials - 714  Electronic Components and Tubes - 714.2  Semiconductor Devices and Integrated Circuits - 741.1  Light/Optics - 913.1  Production Engineering - 931.4  Quantum Theory; Quantum Mechanics

Numerical data indexing:Current_Density 3.00e+02A/m2, Luminance 1.49e+04Cd/m2, Luminance 5.00e+02Cd/m2 to 3.00e+03Cd/m2, Luminous_Efficiency 9.90e+00cd/A, Percentage 1.01e+01%, Percentage 1.50e+01%, Size 4.00e-08m, Size 4.50e-08m, Size 4.74e-07m, Size 4.96e-07m, Size 5.00e-08m, Size 5.00e-09m, Size 5.50e-08m, Voltage 2.30e+00V, Voltage 2.80e+00V

DOI:10.3788/gzxb20184712.1223001

Funding Details: Number; Sponsor: 11674111; National Natural Science Foundation of China - Number; Sponsor: 61575070; National Natural Science Foundation of China - Number; Sponsor: 61605049; National Natural Science Foundation of China

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 13>

Accession number:20190406418858

Title:Correlation Counteraction of Polarization Errors in Interferometric Fiber Optic Gyroscope with Double Optical Length

Authors:Zhang, Min (1); Fu, Chang-Song (2, 3); Wang, Jin-Fang (2, 3); Hu, Zong-Fu (1); Jiang, Zhi-Guo (1)

Author affiliation:(1) School of Electronics and Information Engineering, Tongji University, Shanghai; 201804, China; (2) Shanghai Aerospace Control Technology Institute, Shanghai; 201109, China; (3) Shanghai Engineering Research Center of Inertia, Shanghai; 201109, China

Corresponding author:Hu, Zong-Fu(huzongfu@tongji.edu.cn)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1206004

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:The correlation between the odd and even time slot outputs of the fiber optic gyro with double optical length is used for the correlation-cancellation processing of gyro zero offset error. To verify the method, the fiber optic gyro with double optical length is at room temperature, with moving average time of 100 s, the per second output biases of odd and even time slot are -0.1&deg;/h and 0.08&deg;/h, after processing of correlation cancellation, the bias is modified and the bias stability is increased from 0.008&deg;/h to 0.002&deg;/h. The correlation counteraction signal processing method is fast, simple and effective, which provides a new idea for the precision optimization of the fiber optic gyro with double optical length.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:12

Main heading:Fiber optics

Controlled terms:Errors - Fibers - Gyroscopes - Optical correlation - Polarization - Processing - Signal processing

Uncontrolled terms:Bias stability - Fiber optic gyro - Interferometric fiber optic gyroscopes - Moving averages - Optical length - Polarization errors - Precision optimizations - Zero offsets

Classification code:716.1  Information Theory and Signal Processing - 741.1  Light/Optics - 741.1.2  Fiber Optics - 913.4  Manufacturing

Numerical data indexing:Time 1.00e+02s

DOI:10.3788/gzxb20184712.1206004

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 14>

Accession number:20190406418864

Title:High Dynamic Range Anisotropic Focusing Streak Tube

Authors:Zhao, Ting-Jing (1); Hui, Dan-Dan (2, 3); Tian, Jin-Shou (2); Lu, Yu (2); Liu, Bai-Yu (2); Wen, Wen-Long (2); Gou, Yong-Sheng (2); Chen, Zhen (2)

Author affiliation:(1) Electrical Engineering College, Longdong University, Qingyang; Gansu; 745000, China; (2) Key Laboratory of Ultrafast Photoelectric Diagnostics Technology, Xi'an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi'an; 710119, China; (3) University of Chinese Academy of Sciences, Beijing; 100049, China

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1223003

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:The electron-optical model of high dynamic range anisotropic focusing streak tube is built. Via calculating the electric field distribution and tracking electron beam trajectory of the whole system, high voltage electrodes which may trigger the electric sparks are analyzed; the effect of electric quadrupole lens on the streak tube magnification, static and dynamic image quality are studied; the temporal distortion is calculated. The results show that the temporal distortion in the 20 mm long slit is only 15 ps, in which the variation of the ramp voltage imposed on the deflectors is as small as 3.06 V. Thus, the slit image distortion caused by the temporal distortion can be ignored. The optimum time resolution of 1.8 ps and dynamic range of 1 000:1 at temporal resolution of 8 ps are successfully demonstrated in the experiments.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:15

Main heading:Streak cameras

Controlled terms:Anisotropy - Electric fields

Uncontrolled terms:Dynamic range - Electric quadrupoles - Numerical computations - Slit image - Temporal distortions

Classification code:701.1  Electricity: Basic Concepts and Phenomena - 742.2  Photographic Equipment - 931.2  Physical Properties of Gases, Liquids and Solids

Numerical data indexing:Size 2.00e-02m, Time 1.50e-11s, Time 1.80e-12s, Time 8.00e-12s, Voltage 3.06e+00V

DOI:10.3788/gzxb20184712.1223003

Funding Details: Number; Sponsor: 50875132; National Natural Science Foundation of China - Number; Sponsor: 60573172; National Natural Science Foundation of China

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 15>

Accession number:20190406418860

Title:Analysis of Output Spectrum in Nitrogen Diluted Continuous Wave DF Laser

Authors:Wang, Jie (1); Guo, Jian-Zeng (1); Yan, Fei-Xue (1); Yang, Zhen (1); Ren, Xiao-Ming (1); Zhao, Hai-Tao (1)

Author affiliation:(1) The 718th Research Institute of CSIC, Handan; Hebei; 056027, China

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1214002

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:In order to acquire characteristic of the output spectrum in nitrogen diluted combustor driven continuous wave deuterium fluoride laser, the spectrum analysis was accomplished basd on Z-model unstable optical resonator, which used Fourier infrared spectrum analyzer measuing scatter of the reflector mirror in out optical path. The results show that the output lines of nitrogen diluted DF laser transfer to long wavelength, and 3P10~3P13 lines with wavelength larger than 4.0 &mu;m are brought out efficiently. Also, the transition lines of each vibrational energy level take on higher rotational quantum number. The output spectra of DF laser compete intensely existing in self and different band, and cascade effect appears among them. The distribution of DF laser output spectra can be regulated partly by adjusting the combustor oxidant excess index. It satisfies pneumatic performance with excess second fuel, and the distribution or output spectra is affected faintly with the appropriate second fuel ratio range. The results have a reference to research and application of the combustion driven continuous wave DF laser.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:11

Main heading:Laser mirrors

Controlled terms:Chemical lasers - Combustors - Deuterium - Fluorine compounds - Laser chemistry - Nitrogen - Quantum theory - Spectroscopy - Spectrum analysis - Spectrum analyzers

Uncontrolled terms:Deuterium fluoride laser - Infrared spectrum analyzer - Output spectrum - Reflector mirrors - Research and application - Rotational quantum numbers - Unstable cavity - Vibrational energy levels

Classification code:521.2  Combustors - 744.1  Lasers, General - 744.7  Laser Components - 804  Chemical Products Generally - 931.4  Quantum Theory; Quantum Mechanics

Numerical data indexing:Size 4.00e-06m

DOI:10.3788/gzxb20184712.1214002

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 16>

Accession number:20190406418870

Title:Micro-cantilever Displacement Detection System Based on Fabry-Perot Interference

Authors:Huang, Jian (1); Zhan, Wei-Na (1); Chen, Yang-Li (1); Lu, Jing-Qi (1)

Author affiliation:(1) Department of Physics, School of Science, Wuhan University of Technology, Wuhan; 430070, China

Corresponding author:Lu, Jing-Qi(lujingqi@whut.edu.cn)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1212003

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:A method based on Fabry-Perot (F-P) interferometer is proposed to detect the displacement of the micro-cantilever of atomic force microscopy. A hemispherical F-P cavity composed of a spherical mirror and a micro-cantilever is designed. A single frequency laser is used as the light source. The laser beam is reflected multiple times in the hemispherical F-P cavity and returned to the original path to form an interference. According to the principle of multi-beam interference, the relationship between the interference intensity and the cavity length has been determined and the deflection of the micro-cantilever has been calculated by using the intensity demodulation method. Finally, a micro-cantilever displacement detection system has been built. The experiment obtained a linear fit of 99.9% in the working range of 30 nm, and the minimum displacement resolution of the micro-cantilever was 0.26 nm. The experimental results are consistent with the theoretical analysis, which proves the practicability of the system.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:21

Main heading:Fabry-Perot interferometers

Controlled terms:Atomic force microscopy - Cavity resonators - Demodulation - Displacement measurement - Laser beams - Light sources - Nanocantilevers - Optical variables measurement

Uncontrolled terms:Displacement resolution - Fabry Perot interference - Intensity demodulation - Interference intensity - Micro-cantilevers - Multibeam interferences - Single frequency laser - Spherical mirror

Classification code:741.3  Optical Devices and Systems - 744.8  Laser Beam Interactions - 761  Nanotechnology - 933  Solid State Physics - 941.3  Optical Instruments - 941.4  Optical Variables Measurements - 943.2  Mechanical Variables Measurements

Numerical data indexing:Percentage 9.99e+01%, Size 2.60e-10m, Size 3.00e-08m

DOI:10.3788/gzxb20184712.1212003

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 17>

Accession number:20190406418875

Title:Saturated Echo Signal Algorithm for Wide Dynamic Range Lidar

Authors:Zhu, Shi-Xian (1, 2); Zhao, Yi-Qiang (1, 2); Ye, Mao (1, 2); Li, Jie (1, 2); Xia, Xian-Zhao (1, 2); Xie, Shao-Yu (1); Zhou, Guo-Qing (1)

Author affiliation:(1) The School of Microelectronics, Tianjin University, Tianjin; 300072, China; (2) Tianjin Key Laboratory of Imaging and Sensing Microelectronic Technology, Tianjin; 300072, China

Corresponding author:Zhao, Yi-Qiang(yq_zhao@tju.edu.cn)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1228003

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:An adaptive window width centroid correction algorithm is proposed based on echo signal modeling for lidar distance detection. An adaptive window width model is established to obtain centroids based on the relationship between window width and saturation. The algorithm is adjusted by the median, and achieves high-accuracy time extraction of saturated waveforms. The simulation is carried out through Matlab, and the results show that when the SNR reaches 10 dB, the accuracy of the adaptive window width centroid correction algorithm is 0.3 ns. Compared with traditional waveform centroid algorithms, the accuracy of the proposed algorithm is improved by 92% and the problem of centroid drift can be effectively solved. The algorithm is verified utilizing board-level measured waveforms and is corrected for distortion of the measured waveforms, the results show that the time accuracy of algorithm can reach 0.5 ns, and ranging accuracy can achieve 7.5 cm in case of saturated waveforms. The proposed algorithm can effectively increase the dynamic range of ranging and reduce system complexity.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:16

Main heading:Optical radar

Controlled terms:Distance measurement - Fuzzy neural networks - MATLAB - Signal to noise ratio - Waveform analysis

Uncontrolled terms:Adaptive windows - Centroid algorithm - Correction algorithms - Distance detection - Echo signal models - Ranging accuracy - System complexity - Wide dynamic range

Classification code:716.1  Information Theory and Signal Processing - 716.2  Radar Systems and Equipment - 723.4  Artificial Intelligence - 921  Mathematics - 943.2  Mechanical Variables Measurements

Numerical data indexing:Decibel 1.00e+01dB, Percentage 9.20e+01%, Size 7.50e-02m, Time 3.00e-10s, Time 5.00e-10s

DOI:10.3788/gzxb20184712.1228003

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 18>

Accession number:20190406418874

Title:Surface Enhanced Raman Scattering-based Tumor Immunoassay Using PS@Ag Nano-probes and Si@Ag Array Substrate

Authors:Wang, Zhe (1); Fu, Hao (1); Liang, Zhao-Heng (1); Wang, Fu-Yan (2); Zhou, Jun (1)

Author affiliation:(1) Department of Microelectronics Engineering, Faculty of Science, Ningbo University, Ningbo; Zhejiang; 315211, China; (2) Zhejiang Provincial Key Laboratory of Pathophysiology, School of Medicine, Ningbo University, Ningbo; Zhejiang; 315211, China

Corresponding author:Zhou, Jun(zhoujun@nbu.edu.cn)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1228002

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:A super-sensitive, high-specific immunoassay of tumor marker based on Surface Enhanced Raman Scattering (SERS) was developed with the sandwich-type immune structure consisted of Ag-covered polystyrene sphere (PS@Ag) probes and Ag-deposited Si pyramid array (Si@Ag) substrate. The PS@Ag immune probe was prepared by successively immobilizing 4-Mercaptobenzoic acid (4-MBA) and Anti-AFP antibodies on the surface of in-situ reduced PS@Ag nanoparticles. The Si pyramid array was fabricated using PS spheres as a template, combining with Langmiur-Bloggt method, reactive ion etching and wet chemical etching techniques. Then, Si @Ag immune substrate was prepared by successively depositing Ag film and immobilizing Anti-AFP antibodies on the surface of Si pyramid array. The results demonstrate that the constructed immunoassay platform exhibits high sensitivity with the limit of detection of 1.75 fg&bull;mL<sup>-1</sup> and wide linear range from 2 fg&bull;mL<sup>-1</sup> to 200 ng&bull;mL<sup>-1</sup>. In addition, the detections of serum sample show the SERS-based platform is not only well-consistent with that of chemiluminescent immunoassay but also more sensitive, which could be potentially applied in the practical clinical diagnoses of cancer.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:20

Main heading:Surface scattering

Controlled terms:Antibodies - Diagnosis - Dyes - Immunology - Nanoprobes - Probes - Raman scattering - Reactive ion etching - Silicon - Silver nanoparticles  - Substrates - Tumors - Wet etching

Uncontrolled terms:4-mercaptobenzoic acids - Alpha fetoprotein - Chemiluminescent immunoassays - Immunoassay - Limit of detection - Polystyrene spheres - Pyramid arrays - Surface enhanced Raman Scattering (SERS)

Classification code:461  Bioengineering and Biology - 549.3  Nonferrous Metals and Alloys excluding Alkali and Alkaline Earth Metals - 741.1  Light/Optics - 761  Nanotechnology - 802.2  Chemical Reactions - 803  Chemical Agents and Basic Industrial Chemicals - 931  Classical Physics; Quantum Theory; Relativity - 933  Solid State Physics

Numerical data indexing:Mass_Density 1.75e-12kg/m3 to 2.20e-05kg/m3, Mass_Density 2.00e-12kg/m3 to 2.00e-04kg/m3

DOI:10.3788/gzxb20184712.1228002

Funding Details: Number; Sponsor: 61320106014; National Natural Science Foundation of China - Number; Sponsor: 61675104; National Natural Science Foundation of China - Number; Sponsor: 81501421; National Natural Science Foundation of China

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 19>

Accession number:20190406418857

Title:Tunable High-frequency Millimeter-wave Signal Generator Based on Optical Carrier-suppressed Modulation

Authors:Liu, Ting-Ting (1); Pei, Li (1); Wang, Yi-Qun (1); Wu, Liang-Ying (1); Zheng, Jing-Jing (1); Li, Jing (1)

Author affiliation:(1) Institute of Lightwave Technology, Beijing Jiaotong University, Beijing; 100044, China

Corresponding author:Pei, Li(lipei@bjtu.edu.cn)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1206003

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:A tunable multi-frequency optical millimeter-wave signals generator scheme based on optical carrier-suppressed modulation was proposed theoretically. Millimeter-wave signals with tunable frequency multiplication factor can be obtained through the beating of two sideband components of the optical carrier-suppressed signal which are selected by the uniform fiber Bragg grating based on acousto-optic tunable filter. What's more, in order to avoid the time shift of code effect caused by the chromatic dispersion of the fiber, the baseband data signals are modulated on only one sideband component of the optical carrier-suppressed signal. To investigate the scheme, some simulations have been done. It turns out that optical millimeter-wave signals with frequency multiplication factors of 2, 6, 10, 14, 18 and 22 will be generated. The transmission performance of the downlink of the radio-over-fiber system are also evaluated. Under the situation that the frequency multiplication factor is 22, when the optical millimeter-wave signals modulated with none-return-to-zero data signals of 2 Gbit/s, the eye diagrams are still wide open after transmitting through the fiber of 50km. Meanwhile, the power penalty is only 0.4 dB. The results show that the system with well transmitting performance can meet the requirements of communication.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:17

Main heading:Modulation

Controlled terms:Chromatic dispersion - Fiber Bragg gratings - Fibers - Millimeter waves - Optical signal processing - Radio transmission - Radio-over-fiber

Uncontrolled terms:Acousto-optic tunable filters - Frequency multiplication - Millimeter-wave signal generators - Optical carriers - Radio over fiber system - Transmission performance - Transmitting performance - Tunable

Classification code:711  Electromagnetic Waves - 711.1  Electromagnetic Waves in Different Media - 716.3  Radio Systems and Equipment - 717.1  Optical Communication Systems

Numerical data indexing:Bit_Rate 2.00e+09bit/s, Decibel 4.00e-01dB, Size 5.00e+04m

DOI:10.3788/gzxb20184712.1206003

Funding Details: Number; Sponsor: 61525501; National Natural Science Foundation of China

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 20>

Accession number:20190406418872

Title:Propagation Characteristics of Bessel-Gaussian Beam in Anisotropic Atmosphere

Authors:Sun, Ri-Dong (1); Guo, Li-Xin (1); Cheng, Ming-Jian (1, 2); Yan, Xu (1); Li, Jiang-Ting (1)

Author affiliation:(1) School of Physics and Optoelectronic Engineering, Xidian University, Xi'an; 710071, China; (2) State Key Laboratory of Pulsed Power Laser Technology, National University of Defense Technology, Hefei; 230037, China

Corresponding author:Guo, Li-Xin(lxguo@xidian.edu.cn)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1201002

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:The multiple random phase screen simulation method is used to simulate the anisotropic turbulent atmosphere and Bessel-Gaussian beam in intensity distribution, the on-axis scintillation and beam wander. The effects of anisotropic turbulence parameters and wave source parameters on the propagation quality of Bessel-Gasuuain beam are analyzed. The results show that the intensity distribution of Bessel-Gaussian beam in anisotropic turbulent atmosphere is related to the off-axis distance. Only the intensity value at the first ring decreases monotonously, while the intensity value at the other secondary rings increases first and then decreases. The on-axis scintillation index of the Bessel-Gaussian beam at close range decreases with the increase of the waveform parameter, and there is a trend of first rising, then falling and then rising with the increase of beam width. This phenomenon is related to the beam width of Bessel-Gaussian beam. The beam wander decreases with increases of the waveform parameter, the number of orbital angular momentum, the wavelength and the beam width. However, at a long distance, its on-axis scintillation index and beam wander effect are opposite to that of near distance, which is consistent with the sudden increase of the width of Bessel-Gaussian beam. The wander effect of Bessel-Gaussian beam in anisotropic turbulent atmosphere is significantly less than that in isotropic turbulence atmosphere, and the result even larger than Laguerre-Gaussian beam at long distance.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:18

Main heading:Gaussian beams

Controlled terms:Anisotropy - Atmospheric turbulence - Gaussian distribution - Scintillation

Uncontrolled terms:Beam-wander - Intensity distribution - Laguerre Gaussian beams - On-axis - Optical vortices - Orbital angular momentum - Propagation characteristics - Random phase screen

Classification code:443.1  Atmospheric Properties - 711  Electromagnetic Waves - 741.1  Light/Optics - 922.1  Probability Theory - 931.2  Physical Properties of Gases, Liquids and Solids

DOI:10.3788/gzxb20184712.1201002

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 21>

Accession number:20190406418876

Title:Automatic Phase Aberration Compensation for Digital Holographic Microscopy Combined with Phase Fitting and Deep Learning

Authors:Xiao, Wen (1); Yang, Lu (1); Pan, Feng (1); Cao, Run-Yu (1); Yao, Tian (2); Li, Xiao-Ping (2)

Author affiliation:(1) School of Instrumentation Science and Opto-electronics Engineering, Beihang University, Beijing; 100191, China; (2) Department of Gynaecology and Obstetrics, Peking University People's Hospital, Beijing; 100191, China

Corresponding author:Pan, Feng(panfeng@buaa.edu.cn)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1210001

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:An automatic aberration compensation method is proposed by combing phase fitting and deep learning in digital holographic microscopy and applications to dynamic observation of living cell morphology. Firstly, in the holography recording plane, the preliminary aberration compensation is implemented by using a digital phase mask, whose quadratic polynomial fitting computation is based on the extraction of reconstructed phase value along central cross line profiles in the field of view. Then, in the holographic imaging plane, the final aberration compensation is completed by using higher-order polynomial digital phase mask that computed with the phase data in the object free region, which is defined by the convolutional neural network. Thus, the phase image of object is correctly and accurately reconstructed. Thanks to the preliminary aberration compensation in the holography recording plane, the complexity of reconstruction in the holographic imaging plane is effectively reduced before the convolutional neural network training. Therefore, a stable deep learning model for phase image segmentation can be obtained on basis of limited data set and the compensation of phase aberration can be achieved without any manual intervention. The experiments are demonstrated by observing the several kinds of living cells, which have different morphological characteristics, with the off-axis digital holographic microscopy. Furthermore, the proposed method is applied to screen the drug resistance of endometrial cancer cells. These experimental results verify the proposed method and show that it can be used to dynamic microscopic observation in biological cell research.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:19

Main heading:Aberrations

Controlled terms:Cells - Convolution - Cytology - Deep learning - E-learning - Holography - Image segmentation - Microscopic examination - Neural networks - Phase measurement

Uncontrolled terms:Aberration compensation - Biological cells - Convolutional neural network - Digital holographic microscopy - Endometrial cancer cells - Higher-order polynomials - Microscopic observations - Morphological characteristic

Classification code:461.2  Biological Materials and Tissue Engineering - 716.1  Information Theory and Signal Processing - 746  Imaging Techniques - 942.2  Electric Variables Measurements

DOI:10.3788/gzxb20184712.1210001

Funding Details: Number; Sponsor: 61775010; National Natural Science Foundation of China

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 22>

Accession number:20190406418877

Title:Comfort Evaluation Model Based on Region of Interest and Contrast of Stereo Images

Authors:Quan, Wei (1); Zhao, Yun-Xiu (1); Han, Cheng (1); Ding, Ying (1); Jiang, Shan (1); Li, Bo (1)

Author affiliation:(1) School of Computer Science and Technology, Changchun University of Science and Technology, Changchun; 130022, China

Corresponding author:Han, Cheng(hancheng@cust.edu.cn)

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1210002

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:A comfort evaluation model was proposed based on regional contrast, aiming at the problem that the stereo image comfort is difficult to effectively evaluate objectively, combined with the human visual attention mechanism. The region of interest was extracted as the foreground region according to the saliency map and the disparity map. Then, the color spaces of the foreground and background region were quantized, and the regional contrast with the spatial weighted was estimated. The parallax angle and width angle of the foreground area were calculated. Finally, according to the subjective evaluation values, the objective evaluation model was obtained by fitting the curve with least-square method. Comparing the D+W model, the Pearson correlation coefficient and the Kendall correlation coefficient of the model prediction value and the subjective evaluation value are 8.1% and 3.9% higher respectively than the original model. The average absolute value error is reduced by 13%, and the root mean square error is reduced by 22.1%. The experimental results show that the model has better universality and the result is closer to the subjective evaluation value.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:20

Main heading:Image segmentation

Controlled terms:Behavioral research - Color - Correlation methods - Curve fitting - Geometrical optics - Least squares approximations - Mean square error - Stereo image processing

Uncontrolled terms:Binocular stereo - Color space - Contrast - Degree of visual comfortable - Least square methods - Objective evaluation - Region of interest

Classification code:723.2  Data Processing and Image Processing - 741.1  Light/Optics - 921.6  Numerical Methods - 922.2  Mathematical Statistics - 971  Social Sciences

Numerical data indexing:Percentage 1.30e+01%, Percentage 2.21e+01%, Percentage 3.90e+00%, Percentage 8.10e+00%

DOI:10.3788/gzxb20184712.1210002

Funding Details: Number; Sponsor: 61602058; National Natural Science Foundation of China

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

<RECORD 23>

Accession number:20190406418856

Title:Effect of the Asymmetric Factor on the Polarization-dependent Filter of Photonic Crystal Fiber

Authors:Jiang, Ling-Hong (1); Wang, Chao (1); Han, Ying (2); Zhang, Yin-Pu (1); Zhao, Xing-Tao (2); Hou, Lan-Tan (2); Qi, Yue-Feng (2)

Author affiliation:(1) Intelligence and Information Engineering College, Tangshan University, Tangshan; Hebei; 063000, China; (2) State Key Laboratory of Metastable Materials Science and Technology, Yanshan University, Qinhuangdao; Hebei; 066004, China

Source title:Guangzi Xuebao/Acta Photonica Sinica

Abbreviated source title:Guangzi Xuebao

Volume:47

Issue:12

Issue date:December 1, 2018

Publication year:2018

Article number:1206002

Language:Chinese

ISSN:10044213

CODEN:GUXUED

Document type:Journal article (JA)

Publisher:Chinese Optical Society

Abstract:Based on the surface plasmon resonance effect, the gold-coated Photonic Crystal Fibers (PCFs) with introduction of three different kinds of asymmetric factors with polarization-dependent filter characteristics were proposed. The polarization-dependent filter characteristics were analyzed by the full vectorial finite element method. When the asymmetric factor is only introduced in the fiber core mode, the resonance losses of x- and y-polarized core modes are 5.58 dB/cm and 461.58 dB/cm at the communication wavelength of 1.55 &mu;m, respectively, the resonance loss ratio in two polarization directions is 83. When the asymmetric factor is only introduced in the surface plasmon mode, the resonance losses of x- and y-polarized core modes with the coating thickness of 55 nm are 2.02 dB/cm and 412.91 dB/cm at the resonance wavelength of 1.31 &mu;m, respectively, the resonance loss ratio in two polarization directions is up to 204. The resonance losses of x- and y-polarized core modes with the coating thickness of 19.5 nm are 5.29 dB/cm and 536.25 dB/cm at the resonance wavelength of 1.55 &mu;m, respectively, the resonance loss ratio in two polarization directions is 101.While the asymmetric factors both in the core modes and the surface plasmon mode are all introduced, the y-polarized resonance strength is up to 802.08 dB/cm at 1.55 &mu;m, the corresponding loss in x polarization is only 5.57 dB/cm, the resonance loss ratio in two polarization directions is up to 144. The numerical comparisons show that the asymmetric factors introduced in the surface plasmon mode or both in two modes can obtain much stronger polarization-dependent filter characteristics with high polarization loss ratio. This work is beneficial for the design and application of the polarization-dependent PCF filters and related polarizers.<br/> &copy; 2018, Science Press. All right reserved.

Number of references:25

Main heading:Photonic crystal fibers

Controlled terms:Crystal filters - Crystal whiskers - Fibers - Gold coatings - Nonlinear optics - Phase matching - Plasmons - Polarization - Surface plasmon resonance - Thickness measurement

Uncontrolled terms:Communication wavelengths - Design and application - Full-vectorial finite element methods - Mode coupling - Polarization direction - Resonance strengths - Surface plasmon resonance effects - Symmetric factor

Classification code:703.2  Electric Filters - 713  Electronic Circuits - 741.1.1  Nonlinear Optics - 813.2  Coating Materials - 931.3  Atomic and Molecular Physics - 933.1.1  Crystal Lattice - 943.2  Mechanical Variables Measurements - 951  Materials Science

Numerical data indexing:Size 1.31e-06m, Size 1.55e-06m, Size 1.95e-08m, Size 5.50e-08m

DOI:10.3788/gzxb20184712.1206002

Funding Details: Number; Sponsor: 61735011; National Natural Science Foundation of China - Number; Sponsor: F2018105036; Natural Science Foundation of Hebei Province - Number; Sponsor: F2018203346; Natural Science Foundation of Hebei Province

Database:Compendex

Compilation and indexing terms, Copyright 2019 Elsevier Inc.

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