Journals
Advanced Photonics
Photonics Insights
Advanced Photonics Nexus
Photonics Research
Advanced Imaging
View All Journals
Chinese Optics Letters
High Power Laser Science and Engineering
Articles
Optics
Physics
Geography
View All Subjects
Conferences
CIOP
HPLSE
AP
View All Events
News
About CLP
Search by keywords or author
Login
Registration
Login in
Registration
Search
Search
Articles
Journals
News
Advanced Search
Top Searches
laser
the
2D Materials
Transformation optics
Quantum Photonics
Home
About
Early Posting
Current Issue
Issue in Progress
Special Issues
All Issues
Special Events
Journals >
Chinese Optics Letters
Contents
2011
Volume: 9 Issue s1
39 Article(s)
Select format
EndNote (RIS)
BibTex
Plain Text
Export citation format
Femtosecond, High Power Lasers
Intense Bessel femtosecond pulse propagation in dispersive Kerr medium
Zhenming Song, and Takashi Nakajima
The performance of intense Bessel femtosecond pulse propagation in dispersive medium is investigated. Water is chosen as the Kerr medium with large dispersion. We find that within the dispersion length, the temporal profile integrated over the beam radius is controlled mainly by dispersion, whereas the spectral profile
The performance of intense Bessel femtosecond pulse propagation in dispersive medium is investigated. Water is chosen as the Kerr medium with large dispersion. We find that within the dispersion length, the temporal profile integrated over the beam radius is controlled mainly by dispersion, whereas the spectral profile is nearly undistorted. We also show the energy flow between different transverse parts of the beam, which provides a reservoir for the intense part of the Bessel beam and extends the nonlinear effect length between the pulse and the Kerr medium as we have previously found in argon..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10101 (2011)
Get PDF
View fulltext
Generation, Detection, and Propagation of Terahertz Waves
Study on nonlinear processes affecting terahertz radiation generation from undoped GaP crystal
Feng Liu, Yanfeng Li, Qirong Xing, Changlei Wang, Minglie Hu, Lu Chai, and Chingyue Wang
Nonlinear processes associated with terahertz radiation generated via optical rectification from undoped GaP crystal, including second harmonic generation (SHG) and multiphoton absorption processes, are examined. Experimental results of polarization-resolved SHG are obtained.
Nonlinear processes associated with terahertz radiation generated via optical rectification from undoped GaP crystal, including second harmonic generation (SHG) and multiphoton absorption processes, are examined. Experimental results of polarization-resolved SHG are obtained..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10201 (2011)
Get PDF
View fulltext
Study on the transmission characteristic of terahertz pulse through packing materials
Jia Liu, Wenhui Fan, and Bing Xue
Terrorism has become an international problem in recent years as evidenced by toxins mailed through the post, liquid explosives planted in airplanes, and so on. Clearly, the security screening of packing materials is highly required. We conduct nondestructive and contactless detection of some packing materials used in
Terrorism has become an international problem in recent years as evidenced by toxins mailed through the post, liquid explosives planted in airplanes, and so on. Clearly, the security screening of packing materials is highly required. We conduct nondestructive and contactless detection of some packing materials used in daily life by terahertz time-domain spectroscopy. The THz time-domain spectra of five typical kinds of packing materials are measured in the frequency range of 0.3–2.5 THz. THz absorption spectra and transmittance are also analyzed..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10202 (2011)
Get PDF
View fulltext
Terahertz radiation from InN by femtosecond optical pulses of different wavelengths
Haiyan Wang, Guozhong Zhao, and Xinqiang Wang
The characteristics of terahertz radiation from an n-type InN excited by femtosecond laser pulses tunable from 750 to 840 nm are experimentally studied. Terahertz emission from InN is closely bound up with the Dember effect. Terahertz emission can be interpreted as being emitted from accelerated photo-carriers excited
The characteristics of terahertz radiation from an n-type InN excited by femtosecond laser pulses tunable from 750 to 840 nm are experimentally studied. Terahertz emission from InN is closely bound up with the Dember effect. Terahertz emission can be interpreted as being emitted from accelerated photo-carriers excited by a femtosecond pulse in Dember field. Terahertz radiation from InN shows a strong dependence on excitation wavelength. Results show that under laser pulse excitation with a different center wavelength, the terahertz radiation shows different characteristics, such as radiation intensity, radiation efficiency, and spectrum width. This work will be propitious to the development of terahertz time-domain spectrum technology and the optimization of experiment system, as well as being a reference for conducting research on terahertz emission with higher radiation intensity and efficiency..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10203 (2011)
Get PDF
View fulltext
Transmitted properties of terahertz wave through metallic hole arrays
Dong Li, Shiwei Shu, Fangfang Li, Guohong Ma, Jin Ge, Shuhong Hu, and Ning Dai
Terahertz (THz) wave transmission through a thin metal film with periodic arrays of subwavelength rectangular holes is investigated systematically. The roles of the waveguide resonances and surface plasmon polaritons (SPPs) in extraordinary transmission are also clarified. The transverse waveguide resonances (hole-shap
Terahertz (THz) wave transmission through a thin metal film with periodic arrays of subwavelength rectangular holes is investigated systematically. The roles of the waveguide resonances and surface plasmon polaritons (SPPs) in extraordinary transmission are also clarified. The transverse waveguide resonances (hole-shape dependence) dominates the position and width of maximum transmission. In addition, the periodicity of the hole arrays dominates the position of minimum transmission due to the excitation of SPP, which acts as a band-stop filter in the THz transmission spectra. Our results clearly demonstrate that the extraordinary transmission in THz frequency is originated from the transverse waveguide resonances that behave with a SPP-like character. Simulation based on finite-difference time-domain (FDTD) agrees well with the experimental results..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10204 (2011)
Get PDF
View fulltext
Generation of tunable dual-wavelength optical short pulses for the generation and modulation of terahertz radiation
Jiayuan He, Qingyuan Miao, Jian He, and Xueming Zhang
A new scheme to realize terahertz (THz) radiation generation, as well as high-speed THz modulation, for future high-speed THz communication systems, is proposed and discussed. The proposed experimental scheme includes two elemental parts: dual-wavelength mode-locking oscillating cavity and photomixing elements. The con
A new scheme to realize terahertz (THz) radiation generation, as well as high-speed THz modulation, for future high-speed THz communication systems, is proposed and discussed. The proposed experimental scheme includes two elemental parts: dual-wavelength mode-locking oscillating cavity and photomixing elements. The conditions for double-wavelength operation using the proposed experimental setup have been theoretically discussed and obtained. The mode-locked output optical short pulses with two highstability wavelengths are obtained and demonstrated. These can be used to produce THz radiation, as well as high-speed signal modulation, through the photomixing effects in an ultrafast oxygen-ion-implanted and epitaxial InGaAs:O for the future high-speed THz communication systems..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10205 (2011)
Get PDF
View fulltext
Analysis and optimization of the performance of the electro-optic technique used for ultrashort relativistic electron bunches
Kun Meng, Zeren Li, and Qiao Liu
The electro-optic (EO) technique used in the terahertz spectral technology is described. Response functions—which are used to describe the EO detecting efficiency—of five types of cubic EO crystals are calculated. Based on these results, the choice of different crystal thicknesses is discussed. In the EO detecting proc
The electro-optic (EO) technique used in the terahertz spectral technology is described. Response functions—which are used to describe the EO detecting efficiency—of five types of cubic EO crystals are calculated. Based on these results, the choice of different crystal thicknesses is discussed. In the EO detecting procedure, certain factors, such as reflection, dispersion, absorption and velocity mismatch, may distort the temporal profile of the electric field being detected; therefore, these factors are calculated. The relationship between the field distortion and the bunch duration as well as the crystal thickness is considered..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10206 (2011)
Get PDF
View fulltext
THz modulating property of vanadium oxide films
Changlei Wang, Jianqiang Gu, Qirong Xing, Feng Liu, Yanfeng Li, Lu Chai, and Qingyue Wang
We investigate the optical response of silicon-based VxOy film for terahertz (THz) transmission. We find that absorption of the THz wave by the film can be controlled by laser excitation. Using THz time-domain spectroscopy (THz-TDS), we observe that the amplitude of the THz pulse is modulated by the external optical be
We investigate the optical response of silicon-based VxOy film for terahertz (THz) transmission. We find that absorption of the THz wave by the film can be controlled by laser excitation. Using THz time-domain spectroscopy (THz-TDS), we observe that the amplitude of the THz pulse is modulated by the external optical beam. The linearity of the optical modulation is also analyzed. Weak modulation nonlinearity is found to be within tolerable range..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10207 (2011)
Get PDF
View fulltext
High Speed Diagnostics, Image Processing, and Data Analysis
Optimal design of temporal resolution of soft X-ray picosecond framing cameras based on micro-channel plate
Wenzheng Yang, Yonglin Bai, Xiaohong Bai, Junjun Qin, Baiyu Liu, and Bo Wang
The transit characteristics of gain electrons in the dynamic electric field in one micro-channel, the relation of the temporal resolution, and the gating electric pulse are discussed in detail. The simulation analyses provide guidance on how to select parameters of the gating electric pulse for designing the X-ray pico
The transit characteristics of gain electrons in the dynamic electric field in one micro-channel, the relation of the temporal resolution, and the gating electric pulse are discussed in detail. The simulation analyses provide guidance on how to select parameters of the gating electric pulse for designing the X-ray picosecond framing camera, based on micro-channel plates, especially with regard to the aspect of the temporal resolution of the camera. Certain experimental results are presented..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10301 (2011)
Get PDF
View fulltext
Optical image operation based on holographic polarization multiplexing of fulgide film
Yingli Wang, Baoli Yao, Neimule Menke, Yi Chen, and Meigong Fan
Fulgide, a kind of thermally irreversible photochromic compound, can be used for polarization holographic recording owing to its photoinduced anisotropy and photochromic property under the irradiation of linear polarization light. In this letter, a new technique of optical image operation based on the polarization mult
Fulgide, a kind of thermally irreversible photochromic compound, can be used for polarization holographic recording owing to its photoinduced anisotropy and photochromic property under the irradiation of linear polarization light. In this letter, a new technique of optical image operation based on the polarization multiplexing scheme in the fulgide film is demonstrated, which can implement the readout of two individual orthogonal polarized images separately and the subtraction or summation of the two images by simply rotating a polarizer in front of the charge-coupled device (CCD) detector..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10302 (2011)
Get PDF
View fulltext
Diagnostics of air plasma ablated by 1064 nm laser pulses
Wenfeng Luo, Wei Zhao, Yixiang Duan, and Haojing Wang
The characteristics of air plasma are studied using laser-induced breakdown spectroscopy at room temperature in air at atmospheric pressure. The electron temperature of 20796 K is determined using the Boltzmann plot method with six ionic nitrogen lines at 444.703, 463.054, 500.515, 566.663, 594.165, and 648.205 nm. The
The characteristics of air plasma are studied using laser-induced breakdown spectroscopy at room temperature in air at atmospheric pressure. The electron temperature of 20796 K is determined using the Boltzmann plot method with six ionic nitrogen lines at 444.703, 463.054, 500.515, 566.663, 594.165, and 648.205 nm. The electron number density inferred by measuring the Stark broadened profile of well-isolated Hα line (656.273 nm) is 1.83 £ 1017 cm?3. The hypotheses of the local thermodynamic equilibrium and optically thin plasma are verified based on the experimental results. These results are beneficial for better understanding of the terahertz (THz) wave generation in pulsed laser induced air plasma..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10303 (2011)
Get PDF
View fulltext
Design and implementation of high-speed multiwavelength pyrometry measurement system based on CMOS image sensor
Bo Wang, Yonglin Bai, Baiyu Liu, Xiaohong Bai, Wenzheng Yang, Junjun Qin, and Yongsheng Gou
The detonation temperature is measured both theoretically and experimentally by means of a complementary metal oxide semiconductors (CMOS) image sensor. An experimental system of multiwavelength temperature measurement based on CMOS image sensing technology is designed and realized. The instant spectral information of
The detonation temperature is measured both theoretically and experimentally by means of a complementary metal oxide semiconductors (CMOS) image sensor. An experimental system of multiwavelength temperature measurement based on CMOS image sensing technology is designed and realized. The instant spectral information of each moment is captured by row with the CMOS image sensor, depending on the unique characteristic of its rolling shutter. With the use of multiwavelength temperature measurement theory and by fitting spectrum emissivity through the regressive least square method, the color temperature of the detonation whose temperature is variable can be obtained continuously. The system is calibrated by measuring the standard spectrum of the laser. In our system, four time temperatures are measured within 10-μs detonation. Results show that the system has a higher measuring accuracy and speed, and can be applied in high-speed spectral information collection and storage during the detonation..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10304 (2011)
Get PDF
View fulltext
Theoretic analysis on mutual injection phase-locking fiber laser array
Liang Zhou, Kailiang Duan, and Wei Zhao
We report on a new technique of mutual injection phase-locking fiber-laser array. This technique uses a 45o beam splitter as coupling device. Injection phase-locking process of the fiber-laser array is simulated and analyzed. Results show that constant values of phase differences are related to initial phases. Reflecti
We report on a new technique of mutual injection phase-locking fiber-laser array. This technique uses a 45o beam splitter as coupling device. Injection phase-locking process of the fiber-laser array is simulated and analyzed. Results show that constant values of phase differences are related to initial phases. Reflectivity of the beam splitter and transmissivity of cavity reflectors should be properly optimized in order to make injection phase-locking easier..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10305 (2011)
Get PDF
View fulltext
All-digital pulse generator for gradually modulated semiconductor laser
Zhiyuan Song, Li Feng, Shaolan Zhu, Haodong He, Cunxiao Gao, and Linquan Niu
An all-digital design method consisting of a laser drive circuit for gradually modulating the frequency, pulse width, and amplitude of the output of semiconductor laser is demonstrated. Field programmable gate arrays (FPGAs) and accurate delaying chip are used to generate the pulse. The repetition rate and pulse width
An all-digital design method consisting of a laser drive circuit for gradually modulating the frequency, pulse width, and amplitude of the output of semiconductor laser is demonstrated. Field programmable gate arrays (FPGAs) and accurate delaying chip are used to generate the pulse. The repetition rate and pulse width of the laser pulse gradually adjust from 1 to 10 kHz and 700 ps to 3 ns, respectively. Furthermore, the time of the rising and falling edges for the laser pulse is less than 800 ps..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10306 (2011)
Get PDF
View fulltext
Study on the circuit producing high-speed pulse with high peak current
Deke Yan, Yongsheng Gou, Zhiyuan Song, Chuandong Sun, and Shaolan Zhu
To achieve high peak current with narrow pulse width, the circuit model is analyzed based on a fast and high-power metallic oxide semiconductor field effecttransistor (MOSFET) as the high speed switch of the resistor-capacitor (RC) charge and discharge circuits. It is easy to obtain a narrow high-current pulse by adopt
To achieve high peak current with narrow pulse width, the circuit model is analyzed based on a fast and high-power metallic oxide semiconductor field effecttransistor (MOSFET) as the high speed switch of the resistor-capacitor (RC) charge and discharge circuits. It is easy to obtain a narrow high-current pulse by adopting the narrow triggering pulse to control the on-off state of the MOSFET switch, and using the driving pulse to modulate the exponential decay pulse in the RC discharge loop. The procedure for the high speed MOSFET switch is then discussed. To make the speed of the MOSFET switch as quick as possible, the push-pull driving circuit for the grid of the MOSFET is brought forward and the circuit for producing the narrow trigger pulse is designed. The experimental result shows that the full width at half maximum (FWHM) of the trigger pulse is about 500 ps when the narrow trigger pulse is connected with the discharge return circuit. Measured results demonstrate that the RC discharge loop produces a narrow high-current pulse, with a peak current of up to 92.5 A and FWHM of 6.2 ns. After adjusting relevant parameters, the peak current could reach up to 115.9 A. However, the corresponding pulse width is broadened. Finally, influencing factors on the narrow pulse width for the discharge loop are briefly analyzed..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10307 (2011)
Get PDF
View fulltext
High-speed dynamic spectrum data acquisition system based on linear CCD
Jinkun Zheng, Yonglin Bai, Bo Wang, Baiyu Liu, Yongsheng Gou, and Hui Liu
High-speed dynamic spectrum data of transient detection has become the major means of access to transient information. However, in terms of the characteristic of spectral data excessiveness and transience in the dynamic spectral detection system, the linear charge-coupled device (CCD) used in the system should have rea
High-speed dynamic spectrum data of transient detection has become the major means of access to transient information. However, in terms of the characteristic of spectral data excessiveness and transience in the dynamic spectral detection system, the linear charge-coupled device (CCD) used in the system should have real-time-output and match the high-speed data storage equipment. Based on the transient spectrum characteristic, we introduce a high-speed dynamic spectrum data acquisition system with a high-linear array CCD. Through the field of programming gate array, the system provides an accurate driving clock for CCD and generates the control signals for analog-to-digital (A/D) conversion, storage, and transmission. Finally, the collected data by the peripheral component interconnect bus are summarized and filtered in the host computer. The results show that the CCD can stably work with a 40-MHz clock, and the frame scanning frequency can achieve 73 KHz. This design can remarkably complete the real-time measurement of the denotation transient temperature and achieve high-speed spectral information collection and storage with high accuracy and frame scanning frequency. It can be applied to other transient information acquisition..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10308 (2011)
Get PDF
View fulltext
Improvement methods of reflective photocathode QE of X-ray frame camera
Xiaohong Bai, Yonglin Bai, Zhurong Cao, Junping Zhao, Baiyu Liu, Junjun Qin, Bo Wang, Wenzheng Yang, Yongsheng Gou, and Xianouyang
Time-resolved diagnosis of the transient process using X-ray frame cameras (XRCs) is an important means in inertial confinement fusion (ICF) experiments. The sensitivity of the photocathode is a key parameter of the entire camera system. This letter aims to raise the quantum efficiency (QE) of the photocathode. With th
Time-resolved diagnosis of the transient process using X-ray frame cameras (XRCs) is an important means in inertial confinement fusion (ICF) experiments. The sensitivity of the photocathode is a key parameter of the entire camera system. This letter aims to raise the quantum efficiency (QE) of the photocathode. With the changes in the deposition parameters, such as deposit angle, thickness of the coating in the channel, and vacuum of evaporation, the QE results are different. After testing and theoretical calculation, we find that there is a best matching value among these parameters. When the coating parameter meet this best value, the gain of the XRC can be improved significantly..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10309 (2011)
Get PDF
View fulltext
Others
Covering a fiber taper with a refractive index matching gel residue: a significant increase in evanescent-wave signal collection efficiency
Huacai Chen, Jianjun Ma, Jiahua Chen, Wojtek J. Bock, and Andrea Cusano
A novel optical fiber evanescent-wave (EW) sensing platform combining a taper and a refractive index (RI) gel residue is proposed. The platform includes two identical large core multimode fibers perpendicularly positioned to each other: one for excitation light delivery (i-fiber) and one for EW fluorescent signal colle
A novel optical fiber evanescent-wave (EW) sensing platform combining a taper and a refractive index (RI) gel residue is proposed. The platform includes two identical large core multimode fibers perpendicularly positioned to each other: one for excitation light delivery (i-fiber) and one for EW fluorescent signal collection (r-fiber). One end of the r-fiber is decladded to expose a segment of a cylindrical fiber core terminated with a taper. A small drop of rhodamine 6G (R6G) solution sample is distributed in such a way that it surrounds the side wall of the cylindrical portion of the core and covers the i-fiber end face. The fluorescent signal is recorded under the following conditions: 1) the entire taper is exposed to air; 2) the entire taper is immersed into a large gel block; 3) the taper is covered with a gel residue. A dramatic rise of the fluorescence signal is observed in the third case, which is over 20 times more than the level achieved from the first two cases. We reveal that the intensive mode coupling in the sandwiched air-gel-taper architecture accounts for this phenomenon, which is discussed in detail..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10701 (2011)
Get PDF
View fulltext
Research on the Moire fringes formed by circular and linear grating
Xiaoyu Chen, Jinbo Su, Xiangqun Cao, Bin Lin, and Bo Yuan
The features of Moire fringe generated by overlapping a circular and a linear grating are studied. Given that the pitch of circular grating is a and that of linear grating is P, the shapes of the Moire fringe that they form are hyperbola, parabola, and ellipse when a > P, a = P, and a < P, respectively. As the pi
The features of Moire fringe generated by overlapping a circular and a linear grating are studied. Given that the pitch of circular grating is a and that of linear grating is P, the shapes of the Moire fringe that they form are hyperbola, parabola, and ellipse when a > P, a = P, and a < P, respectively. As the pitches of these two gratings become close to each other, the magnification of the Moire fringe is over 100, which is useful for the measurement of small displacement. This letter also discusses how the fill factor influences Moire fringe visibility..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10702 (2011)
Get PDF
View fulltext
White light-emitting diode based on Multi-core/shell CdSe/ZnS quantum dots
Changyu Shen, Ke Li, and Jiangzhou Ming
Core/shell CdSe/ZnS quantum dots (QDs) are synthesized by thermal deposition using cadmium oxide and selenium as precursors for a hot lauric acid and hexadecylamine trioctylphosphine oxide hybrid. The CdSe/ZnS QDs show high photoluminescence efficiency, with a quantum yield greater than 48% and sizetunable emission wav
Core/shell CdSe/ZnS quantum dots (QDs) are synthesized by thermal deposition using cadmium oxide and selenium as precursors for a hot lauric acid and hexadecylamine trioctylphosphine oxide hybrid. The CdSe/ZnS QDs show high photoluminescence efficiency, with a quantum yield greater than 48% and sizetunable emission wavelengths ranging from 500 to 620 nm. A diode that emits white light with color coordinates of (0.311, 0.321) and luminous efficiency of 46.7 lm/W at 20 mA, as standardized by the Commission Internationale de L’Eclairage or International Commission on Illumination, is fabricated by combining a blue indium-gallium nitride (InGaN) chip with multi-CdSe/ZnS QDs..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10703 (2011)
Get PDF
View fulltext
P-09 laser ablation performance of double glow discharge sputter deposition Mo on titanium alloy surface
Shunqi Zhang, Gaohui Zhang, Guoqing Huang, Pinze Zhang, Peng Xu, Gen Li, and Mingzhou Yu
In order to improve the burn-resistant property of titanium (Ti) alloy, Ti-molybdenum (Mo) burn-resistant alloyed layer is coated onto the Ti6Al4V substrate with the double glow plasma surface alloying technology by permeating the Mo. The experiment is performed at a working temperature of 800 oC to keep the layer warm
In order to improve the burn-resistant property of titanium (Ti) alloy, Ti-molybdenum (Mo) burn-resistant alloyed layer is coated onto the Ti6Al4V substrate with the double glow plasma surface alloying technology by permeating the Mo. The experiment is performed at a working temperature of 800 oC to keep the layer warm for 2.5 h under air pressure of 30 Pa. Mo and Ti6Al4V are used as the source electrode and cathode, respectively. The result of X-ray diffraction shows that the alloy phase of Ti and Mo is formed on the surface of Ti6Al4V substrate. The hardness of the alloyed layer on the surface is more than 800 HK. The friction result further indicates that wear rate can be reduced by three orders of magnitude. Laser ablation experiment is used to characterize the burn-resistant properties of the Ti alloy. The result indicates that the laser burn area of the treated Ti alloy is reduced to 1/12 of the untreated sample. Moreover, the burn-resistant properties improved greatly. Current experimental results clearly show that the laser ablation can be used to characterize the burn-resistant property of the material..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10704 (2011)
Get PDF
View fulltext
Determination of chemical oxygen demand in water using near-infrared transmission and UV absorbance method
Guoqing Wu, Weihong Bi, Jiaming Lv, and Guangwei Fu
Chemical oxygen demand (COD) is a synthetic indicator that represents the degree of organic pollution in water. Compared with the conventional wet chemical method, near-infrared (NIR) transmission and ultraviolet (UV) absorbance method based on photoelectric detection technology and spectroscopy analysis offer advantag
Chemical oxygen demand (COD) is a synthetic indicator that represents the degree of organic pollution in water. Compared with the conventional wet chemical method, near-infrared (NIR) transmission and ultraviolet (UV) absorbance method based on photoelectric detection technology and spectroscopy analysis offer advantages such as high precision, speed, non-contact, and absence of secondary pollution, to name a few. NIR transmission spectra and UV absorbance spectra of standard solution configured with phthalate hydrogen potassium were collected using multi purpose analyzer (MPA) Fourier transform infrared (FT-IR) spectrometer and AvaSpec-2048-2 UV spectrometer, respectively. After different pretreatment of the spectra, COD quantitative analysis model was established using partial least squares (PLS) regression and linear regression. The statistical analysis of COD quantitative model was implemented, and the result revealed that UV absorbance method had higher relevance but lower forecast accuracy and precision than the NIR transmission method..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10705 (2011)
Get PDF
View fulltext
Development of a portable NIR rice wine analyzer
Liyi Jiang, Huacai Chen, and Bo Cai
A portable near-infrared (NIR) spectroscopy analyzer is developed for rice wine analysis. The analyzer is composed of a lamphouse, a temperature-controlled sample chamber, a mini-spectrometer, and a control unit. The mini-spectrometer is based on the crossed Czerny-Turner structure grating platform and a linear InGaAs
A portable near-infrared (NIR) spectroscopy analyzer is developed for rice wine analysis. The analyzer is composed of a lamphouse, a temperature-controlled sample chamber, a mini-spectrometer, and a control unit. The mini-spectrometer is based on the crossed Czerny-Turner structure grating platform and a linear InGaAs array detector with spectrum range of 1100?2500 nm and spectral resolution of 1.5-12 nm full-width at half-maximum (FWHM). The control software written in VC++ consists of three parts: the spectra acquisition, the model establishment, and the sample analysis. The calibration models of determination of alcohol and nonsugar solids in rice wine are established with 54 samples. After calibration, the portable analyzer is used for real-time analysis of the rice wine sample..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10706 (2011)
Get PDF
View fulltext
Terahertz Plasmonics and Metamaterials
Composite metamaterials with tunable chiral properties at terahertz frequencies
Jiaguang Han, Zhen Tian, Jianqiang Gu, Mingxia He, and Weili Zhang
We propose a three-dimensional chiral metamaterial consisting of arrays of multi-layered mutually twisted sandwich metallic spirals. Such structure exhibits a negative refractive index at terahertz frequencies for its chirality. The chirality with varied refractive index can be achieved and tuned by changing the config
We propose a three-dimensional chiral metamaterial consisting of arrays of multi-layered mutually twisted sandwich metallic spirals. Such structure exhibits a negative refractive index at terahertz frequencies for its chirality. The chirality with varied refractive index can be achieved and tuned by changing the configurations. The presented structure offers flexibility for investigating electromagnetic properties of chiral metamaterials in the terahertz regime, thus leading to a unique route toward terahertz device applications..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10401 (2011)
Get PDF
View fulltext
Simulation and experiments for a broadband terahertz absorber
Dainan Zhang, Qiye Wen, and Yunsong Xie
A metamaterial (MM) absorber is very attractive in the terahertz (THz) regime for its potential applications as a bolometer and thermal emitter. In this letter, we propose a transmission line model for the MM absorber in order to identify the basic absorption mechanism involved. Some strategies are put forward to widen
A metamaterial (MM) absorber is very attractive in the terahertz (THz) regime for its potential applications as a bolometer and thermal emitter. In this letter, we propose a transmission line model for the MM absorber in order to identify the basic absorption mechanism involved. Some strategies are put forward to widen the absorption bands to over 250 GHz. A new kind of MM absorber is designed, fabricated, and measured. The results show that a strong absorption of over 90% with a bandwidth of over 300 GHz is obtained, facilitating wide-frequency applications..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10402 (2011)
Get PDF
View fulltext
Terahertz superconducting plasmonic crystals
Zhen Tian, Jiaguang Han, Jianqiang Gu, Mingxia He, Qirong Xing, and Weili Zhang
We present a thermal active control over terahertz (THz) extraordinary transmission induced by a plasmon in a periodic subwavelength holes array and a patch array. Both arrays consist of high transition temperature YBCO superconductors using THz time domain spectroscopy (THz-TDS). In the periodic subwavelength YBCO hol
We present a thermal active control over terahertz (THz) extraordinary transmission induced by a plasmon in a periodic subwavelength holes array and a patch array. Both arrays consist of high transition temperature YBCO superconductors using THz time domain spectroscopy (THz-TDS). In the periodic subwavelength YBCO holes array, we observe a transition between a virtual excitation type surface plasmon polaritons (SPP) mode and a real SPP mode accompanied with transmission amplitude modulation. This can be attributed to the c-axis Josephson plasma frequency. On the other hand, since dipole localized surface plasmon can be excited by direct optical illuminations without phase-matching techniques, we observe a transmission amplitude modulation induced by combining the normal state carriers and the superconducting carriers in the periodic subwavelength YBCO patch array. These THz superconducting plasmonic crystals hold great potential in application for extreme low-loss, large dynamic amplitude modulation, surface plasmon-based function devices..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10403 (2011)
Get PDF
View fulltext
Systematic studies of terahertz metamaterials fabricated on thin Mylar film
Jianqiang Gu, Changlei Wang, Zhen Tian, Feng Liu, Xueqian Zhang, Jiaguang Han, Mingxia He, Qirong Xing, Weili Zhang, Lu Chai, and Qingyue Wang
We present a systematic study of freestanding terahertz (THz) metamaterials fabricated on Mylar film by self-aligned photolithography. THz time-domain spectroscopy (THz-TDS) transmission measurements and numerical simulations reveal the negative index of refraction in the frequency range of 0.66–0.90 THz under normal w
We present a systematic study of freestanding terahertz (THz) metamaterials fabricated on Mylar film by self-aligned photolithography. THz time-domain spectroscopy (THz-TDS) transmission measurements and numerical simulations reveal the negative index of refraction in the frequency range of 0.66–0.90 THz under normal wave incidence. The observed resonance behaviors can be explained by a theoretical circuit model. The electromagnetic properties of such close-ring metamaterials are also explored in terms of geometrical parameters of the unit cell, thickness of the dielectric film, and conductivity of the close ring. This flexible metamaterial can pave the way for three-dimensional THz metamaterial fabrication and applications..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10404 (2011)
Get PDF
View fulltext
Terahertz Spectroscopy and Imaging
Rapid data acquisition in terahertz imaging
Bing Xue, Wenhui Fan, and Yuqing Liang
A new data-acquisition method based on the less movement of the time-delay stage is designed. The method can clearly reduce the time used in the entire imaging process in terahertz pulse imaging. According to the experimental result, the quality of imaging remains the same as the normal method or even better. The appli
A new data-acquisition method based on the less movement of the time-delay stage is designed. The method can clearly reduce the time used in the entire imaging process in terahertz pulse imaging. According to the experimental result, the quality of imaging remains the same as the normal method or even better. The applicability and limitation of the method are also discussed..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10501 (2011)
Get PDF
View fulltext
Terahertz spectra of edible pigments
Shengbo Zhang, Guozhong Zhao, and Xinying Zhao
Terahertz time-domain spectroscopy (THz-TDS) is a new coherent spectral technique to measure transmission spectra and analyze the spectral characteristics of samples. In this letter, the transmission spectra of edible pigments in the THz frequency range are measured using THz-TDS technology at both room temperature and
Terahertz time-domain spectroscopy (THz-TDS) is a new coherent spectral technique to measure transmission spectra and analyze the spectral characteristics of samples. In this letter, the transmission spectra of edible pigments in the THz frequency range are measured using THz-TDS technology at both room temperature and low temperature in nitrogen atmosphere. Their refractive index spectra and absorbance are obtained. The result shows that there is some obviously abnormal dispersion in the refractive index spectra as well as absorption peaks in absorbance at the corresponding frequencies. THz-TDS is expected to have a potential application in the identification of pigments..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10502 (2011)
Get PDF
View fulltext
Study on the THz spectra of four kinds of Nipagin esters
He Wang, and Guozhong Zhao
The transmission spectra of methylparaben, ethylparaben, propylparaben, and butylparaben in the range of 0.2–2.5 THz are measured using terahertz time-domain spectroscopy (THz-TDS). Their refractive index and absorption spectra are obtained at room temperature in nitrogen atmosphere. The results show that the four kind
The transmission spectra of methylparaben, ethylparaben, propylparaben, and butylparaben in the range of 0.2–2.5 THz are measured using terahertz time-domain spectroscopy (THz-TDS). Their refractive index and absorption spectra are obtained at room temperature in nitrogen atmosphere. The results show that the four kinds of Nipagin esters have obvious absorption peaks at 1.54 and 1.83 THz for methylparaben, 1.98 THz for ethylparaben, 1.37 and 1.61 THz for propylparaben, and 0.76 and 1.68 THz for butylparaben. Their anomalous dispersion of the refractive index appears at the corresponding position. Based on the density functional theory (DFT), the vibration absorption spectra of their single molecule are simulated. The numerical simulation and experimental results generally agree with each other. Then the reasons for their minor differences are analyzed. Overall, the spectral properties of Nipagin esters are found to have great significance for the detection of preservatives and for food safety..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10503 (2011)
Get PDF
View fulltext
Terahertz TDS signal de-noising using wavelet shrinkage
Yuqing Liang, Wenhui Fan, and Bing Xue
The field of terahertz (THz) science and technology has achieved significant progress over the last decades. Research interest focuses on THz spectroscopy and imaging. The signal-to-noise ratio (SNR) of the THz system is of great importance in the application of THz spectroscopy and imaging. In this letter, the wavelet
The field of terahertz (THz) science and technology has achieved significant progress over the last decades. Research interest focuses on THz spectroscopy and imaging. The signal-to-noise ratio (SNR) of the THz system is of great importance in the application of THz spectroscopy and imaging. In this letter, the wavelet de-noising technology is used to improve SNR and increase the speed of the THz time-domain spectroscopy system by reducing the repeating times..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10504 (2011)
Get PDF
View fulltext
Identification of pour point depressant by terahertz time-domain spectroscopy
Hui Zhao, Lu Tian, Kun Zhao, Qingli Zhou, Yulei Shi, Dongmei Zhao, Songqing Zhao, and Cunlin Zhang
The frequency-dependent absorption coefficients and refractive indexes of three selected pour point depressants (PPDs) are extracted within the spectral range of 0.2–2.5 THz using terahertz time-domain spectroscopy (THz-TDS). The selected PPDs are also characterized by the middle-infrared spectrum. The experimental res
The frequency-dependent absorption coefficients and refractive indexes of three selected pour point depressants (PPDs) are extracted within the spectral range of 0.2–2.5 THz using terahertz time-domain spectroscopy (THz-TDS). The selected PPDs are also characterized by the middle-infrared spectrum. The experimental results reveal that PPD is more sensitive in the THz range than that in the middle-infrared range. Moreover, the different compositions of PPD can be identified according to their different spectral features in the THz range. Due to its properties of better repeatability, shorter testing time, and easier operation, THz-TDS can be used as a complement for identifying the chemical compositions of PPD..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10505 (2011)
Get PDF
View fulltext
Study on benzoic acid by THz time-domain spectroscopy and density functional theory
Zhuanping Zheng, Wenhui Fan, and Bing Xue
In this letter, we employ terahertz time-domain spectroscopy (THz-TDS) technology to measure the THz absorption spectrum and refractive index of benzoic acid at room temperature. Linearity combination of atomic orbital (LCAO) within the density functional theory (DFT) is also used to compute the vibrational absorption
In this letter, we employ terahertz time-domain spectroscopy (THz-TDS) technology to measure the THz absorption spectrum and refractive index of benzoic acid at room temperature. Linearity combination of atomic orbital (LCAO) within the density functional theory (DFT) is also used to compute the vibrational absorption spectra of benzoic acid in monomer and dimer. In addition, based on the results obtained from density functional calculation, the origins of observed intra-molecular and inter-molecular vibrational modes under specific peaks are interpreted..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10506 (2011)
Get PDF
View fulltext
Terahertz spectroscopy studies of far-infrared optical and dielectric signatures of melamine
Mingxia He, Jiaguang Han, Meng Li, Zhen Tian, Yanjun Yu, and Weili Zhang
We report on the far–infrared optical properties of melamine characterized by terahertz time–domain spectroscopy (THz–TDS). Transmission measurement reveals three low–frequency vibration modes at 1.99, 2.25, and 2.61 THz, which may provide fingerprints for direct melamine detection. By combining THz–TDS with Fourier tr
We report on the far–infrared optical properties of melamine characterized by terahertz time–domain spectroscopy (THz–TDS). Transmission measurement reveals three low–frequency vibration modes at 1.99, 2.25, and 2.61 THz, which may provide fingerprints for direct melamine detection. By combining THz–TDS with Fourier transform infrared (FTIR) spectroscopy, an overall low–frequency optical response of melamine is presented in an extended spectral range of 0.2–6.2 THz. In this range, the low-frequency vibration mode at 3.96 THz is recorded via FTIR. The measured THz spectra are well fit by the multiple–oscillator model, thereby demonstrating that the low–frequency THz response of melamine is a consequence of the lowest four vibration modes..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10507 (2011)
Get PDF
View fulltext
Ultrafast Phenomena in Physics, Chemistry, and Biology
Real-time vibrational mode-coupling observed using a few-cycle pulse laser
Juan Du, and Takayoshi Kobayashi
We observe the instantaneous frequency and amplitude modulations of the C-C stretching mode with a central frequency of 1343 cm?1 in a poly (substituted thiophene) using 6.3 fs laser pulses by the method of real-time vibrational spectroscopy. Spectrogram analysis shows that both amplitude and instantaneous frequency of
We observe the instantaneous frequency and amplitude modulations of the C-C stretching mode with a central frequency of 1343 cm?1 in a poly (substituted thiophene) using 6.3 fs laser pulses by the method of real-time vibrational spectroscopy. Spectrogram analysis shows that both amplitude and instantaneous frequency of the mode with a central frequency of about 1343 cm?1 are modulated. Both modulation frequencies are found to be 120?130 cm?1, which provides evidence of dynamical coupling between a stretching mode and another stretching mode mediated by a low-frequency bending mode..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10601 (2011)
Get PDF
View fulltext
Mathematical representation and experimental generation of cylindrical vector beams
Tao Duan, Pengcheng Jin, and Chunfang Li
Cylindrical vector beams are described by the representation formalism of finite electromagnetic beams in free space. This is achieved by factorizing the field vector into a mapping matrix and a Jones-like vector. The vectorial property of a finite beam can be described by a degree of freedom of the mapping matrix that
Cylindrical vector beams are described by the representation formalism of finite electromagnetic beams in free space. This is achieved by factorizing the field vector into a mapping matrix and a Jones-like vector. The vectorial property of a finite beam can be described by a degree of freedom of the mapping matrix that can be determined by the azimuthal angle of a fixed unit vector with respect to the wave vector. In addition, it is a simple and flexible experimental device for converting linearly polarized light beams into cylindrical vector beams. The radially or azimuthally polarized beam is easily converted into either one of these by varying the applied voltage..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10602 (2011)
Get PDF
View fulltext
Communication capacity of a free space laser communication system in atmospheric turbulent and disperse channels
Hongqiang Lu, Wei Zhao, and Xiaoping Xie
The pulse broadening and communication capacity in atmospheric turbulent and disperse channels are investigated. Models on pulse broadening are proposed, and the simulated results for a typical atmospheric condition and configuration are provided. The results show that the capacity of the system is affected mainly by a
The pulse broadening and communication capacity in atmospheric turbulent and disperse channels are investigated. Models on pulse broadening are proposed, and the simulated results for a typical atmospheric condition and configuration are provided. The results show that the capacity of the system is affected mainly by atmospheric dispersion rather than atmospheric turbulence. The received pulse width can be minimized, and the system-achievable capacity can be maximized by selecting the optimum input pulse width. The proposed method can be used to predict the achievable capacity of a free space laser communication system in turbulent and disperse channels..
showLess
Chinese Optics Letters
Publication Date: Jun. 27, 2011
Vol. 9, Issue s1, s10603 (2011)
Get PDF
View fulltext
Tunable sub-40 fs ultraviolet pulses from non-collinear four-wave mixing in CaF2 crystal
Yongliang Jiang, Baozhen Zhao, Keiichi Sueda, Noriaki Miyanaga, and T. Kobayashi
Pulses with a tunable central wavelength from 278-310 nm reaching <27 fs duration and >1 \mu J energy are generated by non-collinear four-wave mixing in a 0.5-mm CaF2 crystal.
Pulses with a tunable central wavelength from 278-310 nm reaching <27 fs duration and >1 \mu J energy are generated by non-collinear four-wave mixing in a 0.5-mm CaF2 crystal..
showLess
Chinese Optics Letters
Publication Date: Jan. 01, 1900
Vol. 9, Issue s1, s10604 (2011)
Get PDF
View fulltext
Ultrafast dynamics of excited state in oxy-hemoglobin
Takayoshi Kobayashi, and Atsushi Yabushita
We perform ultrafast transient absorption spectroscopy of oxy-hemoglobin by a pump-probe method with ultrashort laser pulses. Negative time-range of the observed traces, where the pump pulse precedes the probe pulse, is analyzed to study the electronic coherence dynamics between the excited state and the ground state,
We perform ultrafast transient absorption spectroscopy of oxy-hemoglobin by a pump-probe method with ultrashort laser pulses. Negative time-range of the observed traces, where the pump pulse precedes the probe pulse, is analyzed to study the electronic coherence dynamics between the excited state and the ground state, and the vibrational coherence in the electronic excited state. The analysis result shows that the electronic coherence between the electronic ground state and the Q-band state dephases in 45+(-)5 fs. The vibrational dephasing times of modes with frequencies of 210, 393, 554, 731, and 1106 cm?1 are found to be 449, 366, 555, 1085, and >1330 fs, respectively..
showLess
Chinese Optics Letters
Publication Date: Jun. 29, 2011
Vol. 9, Issue s1, s10605 (2011)
Get PDF
View fulltext
Email Alert
Submit a Paper
Femtosecond, High Power Lasers
Generation, Detection, and Propagation of Terahertz Waves
High Speed Diagnostics, Image Processing, and Data Analysis
Others
Terahertz Plasmonics and Metamaterials
Terahertz Spectroscopy and Imaging
Ultrafast Phenomena in Physics, Chemistry, and Biology