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Dive into the research topics where Guorui Zhou is active.

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Featured researches published by Guorui Zhou.


Scientific Reports | 2016

Ultraviolet Laser-induced ignition of RDX single crystal

Zhonghua Yan; Chuanchao Zhang; Wei Liu; Jinshan Li; Ming Huang; Xuming Wang; Guorui Zhou; Bisheng Tan; Zongwei Yang; Zhijie Li; Li Li; Hongwei Yan; Xiaodong Yuan; Xiaotao Zu

The RDX single crystals are ignited by ultraviolet laser (355 nm, 6.4 ns) pulses. The laser-induced damage morphology consisted of two distinct regions: a core region of layered fracture and a peripheral region of stripped material surrounding the core. As laser fluence increases, the area of the whole crack region increases all the way, while both the area and depth of the core region increase firstly, and then stay stable over the laser fluence of 12 J/cm2. The experimental details indicate the dynamics during laser ignition process. Plasma fireball of high temperature and pressure occurs firstly, followed by the micro-explosions on the (210) surface, and finally shock waves propagate through the materials to further strip materials outside and yield in-depth cracks in larger surrounding region. The plasma fireball evolves from isotropic to anisotropic under higher laser fluence resulting in the damage expansion only in lateral direction while maintaining the fixed depth. The primary insights into the interaction dynamics between laser and energetic materials can help developing the superior laser ignition technique.


Sensors | 2017

High Sensitivity Refractometer Based on Reflective Smf-Small Diameter No Core Fiber Structure

Guorui Zhou; Qiang Wu; Rahul Kumar; Wai Pang Ng; Hao Liu; Longfei Niu; Nageswara Lalam; Xiaodong Yuan; Yuliya Semenova; Gerald Farrell; Jinhui Yuan; Chongxiu Yu; Jie Zeng; Gui Yun Tian; Yong Qing Fu

A high sensitivity refractive index sensor based on a single mode-small diameter no core fiber structure is proposed. In this structure, a small diameter no core fiber (SDNCF) used as a sensor probe, was fusion spliced to the end face of a traditional single mode fiber (SMF) and the end face of the SDNCF was coated with a thin film of gold to provide reflective light. The influence of SDNCF diameter and length on the refractive index sensitivity of the sensor has been investigated by both simulations and experiments, where results show that the diameter of SDNCF has significant influence. However, SDNCF length has limited influence on the sensitivity. Experimental results show that a sensitivity of 327 nm/RIU (refractive index unit) has been achieved for refractive indices ranging from 1.33 to 1.38, which agrees well with the simulated results with a sensitivity of 349.5 nm/RIU at refractive indices ranging from 1.33 to 1.38.


Journal of Hazardous Materials | 2016

Quantitative correlation between facets defects of RDX crystals and their laser sensitivity

Zhonghua Yan; Wei Liu; Chuanchao Zhang; Xuming Wang; Jinshan Li; Zongwei Yang; Xia Xiang; Ming Huang; Bisheng Tan; Guorui Zhou; Wei Liao; Zhijie Li; Li Li; Hongwei Yan; Xiaodong Yuan; Xiaotao Zu

In this work, the {210} facets of cyclotrimethylenetrinitramine (RDX) single crystals with different quality were studied by scanning electron microscopy and atomic force microscopy. Their laser sensitivity was then assessed using a direct laser ignition test irradiated with ultraviolet laser (wavelength: 355nm, pulse width: 6.4ns). Quantitative relationships between laser sensitivity and surface defects of RDX (210) and (2¯1¯0) facets were investigated. It is determined that the laser sensitivity exhibits significant correlation with the surface roughness, size of which is comparable with scales of laser wavelength. 3D FDTD simulations disclose that this relationship can be well explained with light intensity modulation effects induced by micro-defects on the initial plane wave.


Optical Engineering | 2015

Influence of outgassing organic contamination on the transmittance and laser‐induced damage of SiO2 sol‐gel antireflection film

Liang Yang; Xia Xiang; Xinxiang Miao; Zhijie Li; Guorui Zhou; Zhonghua Yan; Xiaodong Yuan; Wanguo Zheng; Xiaotao Zu

Abstract. The influence of organic contamination (rubber outgassing) on the transmittance of the SiO2 sol‐gel antireflection (AR) film and laser‐induced damage threshold (LIDT) at 355 nm for 3ω AR film and at 1064 nm for 1ω AR film is studied. The correlation between the contamination time and the transmittance loss/LIDT of 1ω/3ω AR film is also investigated both in atmospheric and vacuum environments. The results show that the transmittance loss increases with increasing contamination time, and the LIDT decreases with increasing contamination time for both in atmospheric and vacuum environments. In addition, the resistance against contamination of the 1ω film is stronger than 3ω film, and the contamination is more serious in vacuum than in an atmosphere environment for the same contamination time. Meanwhile, the damage mechanism is also discussed. It indicated that both the porous structure and photo‐thermal absorption contribute to the decreasing LIDT of the sol‐gel AR film.


Chinese Physics B | 2016

Numerical simulation of modulation to incident laser by submicron to micron surface contaminants on fused silica

Liang Yang; Xia Xiang; Xinxiang Miao; Li Li; Xiaodong Yuan; Zhonghua Yan; Guorui Zhou; Haibing Lv; Wanguo Zheng; Xiaotao Zu

Modulation caused by surface/subsurface contaminants is one of the important factors for laser-induced damage of fused silica. In this work, a three-dimensional finite-difference time-domain (3D-FDTD) method is employed to simulate the electric field intensity distribution in the vicinity of particulate contaminants on fused silica surface. The simulated results reveal that the contaminant on both the input and output surfaces plays an important role in the electric field modulation of the incident laser. The influences of the shape, size, embedded depth, dielectric constant (er), and the number of contaminant particles on the electric field distribution are discussed in detail. Meanwhile, the corresponding physical mechanism is analyzed theoretically.


Optical Engineering | 2015

Quantitative measurement of CO2 laser-induced residual stress in fused silica optics

Liang Yang; Wei Liao; Xinxiang Miao; Xiaodong Yuan; Wanguo Zheng; Haibin Lv; Guorui Zhou; Xiaotao Zu; Xia Xiang

Abstract. The residual stress field of fused silica induced by continuous wave CO2 laser irradiation is investigated with specific photoelastic methods. Both hoop stress and axial stress in the irradiated zone are measured quantitatively. For the hoop stress along the radial direction, the maximum phase retardance of 30 nm appears at the boundary of the laser distorted zone (680-μm distance to center), and the phase retardance decreases rapidly and linearly inward, and decreases slowly and exponentially outward. For the axial stress, tensile stress lies in a thin surface layer (<280  μm) and compressive stress lies just below the tensile region. Both tensile and compressive stresses increase first and then decrease along the depth direction. The maximum phase retardance induced by axial tensile stress is 150 nm, and the maximum phase retardance caused by axial compression stress is about 75 nm. In addition, the relationship between the maximum axial stress and the deformation height of the laser irradiated zone is also discussed.


Advances in Condensed Matter Physics | 2014

A Contamination Sensor Based on an Array of Microfibers with Nanoscale-Structured Film

Guorui Zhou; Xiaodong Yuan; Hai-Bing Lü; Hai Zhou; Haijun Wang; Hongbin Wang; Xinxiang Miao

A contamination sensor based on an array of microfibers with nanoscale-structured film using evanescent field is proposed and demonstrated theoretically and experimentally. When the molecular contaminants deposit on the nanoscale-structured film, the refractive index of the film will change and the additional loss will be produced due to the disturbance of evanescent field. The possibility of the sensor is demonstrated theoretically by using three-dimensional finite-difference time domain (3D-FDTD). The corresponding experiments have also been carried out in order to demonstrate the theoretical results. Microfibers are fabricated by using hydrogen-oxygen flame-heated scanning fiber drawing method and the nanoscale-structured film coated on the surface of microfibers is deposited by using dip coating process. Then an array of microfibers is assembled to demonstrate the feasibility of the device. The experimental results show that contaminants detection with the device can agree well with the results measured by the laser-scattering particle counter, which demonstrates the feasibility of the new type of contaminant sensor. The device can be used to monitor contaminants on-line in the high-power laser system.


Scientific Reports | 2018

A simple all-fiber comb filter based on the combined effect of multimode interference and Mach-Zehnder interferometer

Guorui Zhou; Rahul Kumar; Qiang Wu; Wai Pang Ng; Richard Binns; Nageswara Lalam; Xinxiang Miao; Longfei Niu; Xiaodong Yuan; Yuliya Semenova; Gerald Farrell; Jinhui Yuan; Chongxiu Yu; Xinzhu Sang; Xiangjun Xin; Bo Liu; Haibing Lv; Yong Qing Fu

A polarization-dependent all-fiber comb filter based on a combination effect of multimode interference and Mach-Zehnder interferometer was proposed and demonstrated. The comb filter was composed with a short section of multimode fiber (MMF) fusion spliced with a conventional single mode fiber on the one side and a short section of a different type of optical fiber on the other side. The second type of optical fiber is spliced to the MMF with a properly designed misalignment. Different types and lengths of fibers were used to investigate the influence of fiber types and lengths on the performance of the comb filter. Experimentally, several comb filters with free spectral range (FSR) values ranging from 0.236 to 1.524 nm were achieved. The extinction ratio of the comb filter can be adjusted from 6 to 11.1 dB by varying polarization states of the input light, while maintaining the FSR unchanged. The proposed comb filter has the potential to be used in optical dense wavelength division multiplexing communication systems.


Advances in Condensed Matter Physics | 2018

Micro/Nanofiber with Hollow Silica Nanoparticles Thin-Film for Airborne Molecular Contaminants Real-Time Sensing

Longfei Niu; Guorui Zhou; Xinxiang Miao; Xiaodong Yuan; Rahul Kumar; Hao Liu; Yilan Jiang; Xinshu Zou; Hai Zhou; Haibing Lü

A novel chemical sensing approach detecting airborne molecular contaminants (AMCs) or compounds is demonstrated by using single-mode optical microfibre (OMF) coated with hollow silica nanoparticles (HSNs). The concentration of AMCs, which were volatilized on the surface of the tapered microfibre coated with HSNs, influences the transmission loss of the microfibre. Tapered OMF was fabricated using a high-precision electrically controlled setup, and coatings of HSNs were prepared by meniscus coating method. The transmission loss of three OMFs with different diameters and the same thick coating were tested to determine the relationship between AMC concentrations and transmission loss of coated OMFs. Experimental results showed that the transmission loss increases with increasing concentration of AMCs. The sensitivity for volatile simethicone was 0.0263 dB/mg/m3 obtained by the coated OMF with diameter of 2.5 μm, and the sensitivity values of coated OMF with diameters of 5 μm and 6 μm were 0.0024 and 0.0018 dB/mg/m3, respectively. Thus the proposed coated OMF can be used in enclosed space for AMCs sensing.


Fourth International Symposium on Laser Interaction with Matter | 2017

Cleaning mechanism of particle contaminants on large aperture optical components by using air knife sweeping technology

Longfei Niu; Hao Liu; Xinxiang Miao; Haibing Lv; Xiaodong Yuan; Hai Zhou; Caizhen Yao; Guorui Zhou; Qin Li

The cleaning mechanism of optical surface particle contaminants in the light pneumatic tube was simulated based on the static equations and JKR model. Cleaning verification experiment based on air knife sweeping system and on-line monitoring system in high power laser facility was set up in order to verify the simulated results. Results showed that the removal ratio is significantly influenced by sweeping velocity and angle. The removal ratio can reach to 94.3% by using higher input pressure of the air knife, demonstrating that the air knife sweeping technology is useful for maintaining the surface cleanliness of optical elements, and thus guaranteeing the long-term stable running of the high power laser facility.

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Xiaodong Yuan

China Academy of Engineering Physics

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Xinxiang Miao

China Academy of Engineering Physics

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Xiaotao Zu

University of Electronic Science and Technology of China

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Xia Xiang

University of Electronic Science and Technology of China

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Haibing Lv

China Academy of Engineering Physics

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Li Li

University of Electronic Science and Technology of China

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Liang Yang

University of Electronic Science and Technology of China

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Zhijie Li

University of Electronic Science and Technology of China

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Zhonghua Yan

University of Electronic Science and Technology of China

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Hai Zhou

China Academy of Engineering Physics

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