In this work,we reported the room-temperature continuous-wave operation of 6.0 W GaN-based blue laser diode(LD),and its stimulated emission wavelength is around 442 nm.The GaN-based high power blue LD is grown on a c-...In this work,we reported the room-temperature continuous-wave operation of 6.0 W GaN-based blue laser diode(LD),and its stimulated emission wavelength is around 442 nm.The GaN-based high power blue LD is grown on a c-plane GaN substrate by metal organic chemical vapor deposition(MOCVD),and the width and length of the ridge waveguide structure are 30 and 1200μm,respectively.The threshold current is about 400 mA,and corresponding threshold current density is 1.1 kA/cm2.展开更多
Electroluminescence (EL) and temperature-dependent photolumineseenee measurements are performed to study the internal quantum efficiency droop phenomenon of blue laser diodes (LDs) before lasing. Based on the ABC ...Electroluminescence (EL) and temperature-dependent photolumineseenee measurements are performed to study the internal quantum efficiency droop phenomenon of blue laser diodes (LDs) before lasing. Based on the ABC mode, the EL result demonstrates that non-radiative recombination rates of LDs with threshold current densities of 4 and 6kA/cm2 are similar, while LD with threshold current density of 4kA/cm2 exhibits a smaller auger- like recombination rate compared with the one of 6kA/cm2. The internal quantum efficiency droop is more serious for LD with higher threshold current density. temperature-dependent photoluminescence is consistent The internal quantum efficiency value estimated from with EL measurements.展开更多
We propose and experimentally demonstrate a recorded 1-m bidirectional 20.231-Gbit/s tricolor R/G/B laser diode(LD) based visible-light communication(VLC) system supporting signal remodulation. In the signal remodulat...We propose and experimentally demonstrate a recorded 1-m bidirectional 20.231-Gbit/s tricolor R/G/B laser diode(LD) based visible-light communication(VLC) system supporting signal remodulation. In the signal remodulation system, an LD source is not needed at the client side. The client reuses the downstream signal sent from the central office(CO) and remodulates it to produce the upstream signal. As the LD sources are located at the CO, the laser wavelength and temperature managements at the cost-sensitive client side are not needed.This is the first demonstration, to our knowledge, of a >20 Gbit∕s data rate tricolor R/G/B VLC signal transmission supporting upstream remodulation.展开更多
An NO2 photoacoustic sensor system with a high reflective mirror based on a low power blue diode laser is developed in this work. The excitation power is enhanced by increasing the number of reflections. Comparing wit...An NO2 photoacoustic sensor system with a high reflective mirror based on a low power blue diode laser is developed in this work. The excitation power is enhanced by increasing the number of reflections. Comparing with a traditional photoacoustic system, the pool constant is improved from 300.24(Pa·cm)/W to 1450.64(Pa·cm)/W, and the signal sensitivity of the photoacoustic sensor is increased from 0.016 μV/ppb to 0.2562 μV/ppb. The characteristics of temperature and humidity of the new photoacoustic sensor are also obtained, and the algorithm is adjusted to provide a quantitative response and drift of the resonance frequency. The results of this research provide a new method and concept for further developing the NO2 photoacoustic sensors.展开更多
We report a 42Ohm external cavity diode laser with an interference filter (IF) of 0.5am narrow-bandwidth and 79% high transmission, which is first used for Rb optical frequency standard. The IF and the cat-eye refle...We report a 42Ohm external cavity diode laser with an interference filter (IF) of 0.5am narrow-bandwidth and 79% high transmission, which is first used for Rb optical frequency standard. The IF and the cat-eye reflector are used for selecting wavelength and light feedback, respectively. The measured laser linewidth is 24 kHz when the diode laser is free running. Using this narrow-linewidth IF blue diode laser, we realize a compact Rb optical frequency standard without a complicated PDH system. The preliminary stability of the Rb optical frequency standard is 2 × 10^-13 at I s and decreases to 1.9 ×10^-14 at 1000s. The narrow-linewidth characteristic makes the IF blue diode laser a well suited candidate for the compact Rb optical frequency standard.展开更多
This paper explores the advancement and application of high-power blue diode lasers in treating benign prostatic hyperplasia(BPH).Addressing the challenges posed by existing techniques,the study focuses on optimizing ...This paper explores the advancement and application of high-power blue diode lasers in treating benign prostatic hyperplasia(BPH).Addressing the challenges posed by existing techniques,the study focuses on optimizing tissue removal methods.Energy platform for BPH should balance a range of factors,such as operative time,patient conditions,urinary functions,complications,durability,accessibility,and cost,all while prioritizing patient care.Blueray Medical's innovation of high-power blue diode laser systems for BPH surgery is explored,with emphasis on achieving a balance among these considerations.By illustrating the biomedical effects of lasers and their interaction with soft tissues,particularly emphasizing the role of photon absorption by biomolecules and proteins in tissue behavior,this study outlines the advantages of the highpower blue diode laser system.The initial laboratory experiments and clinical results consistently align with our theoretical predictions,especially in terms of tissue vaporization efficiency,tissue coagulation,and bleeding control.In conclusion,blue diode lasers hold potential to enhance surgical outcomes for BPH.Their unique properties offer benefits like improved tissue removal rate and reduced thermal damages.Integrating blue laser technology into BPH protocols could lead to shorter hospital stays,cost savings,and expanded patient eligibility,although rigorous clinical studies are needed to fully understand their benefits and limitations.展开更多
We demonstrate a high-power blue diode laser operated at 447 nm combining laser diodes using an optical fiber bundle. As many as 127 diode lasers at 447 nm were coupled into 400 μm/0.22 NA fibers using an aspherical ...We demonstrate a high-power blue diode laser operated at 447 nm combining laser diodes using an optical fiber bundle. As many as 127 diode lasers at 447 nm were coupled into 400 μm/0.22 NA fibers using an aspherical lens group with different focus lengths. The bare fibers were mechanically bundled through high temperature ultraviolet adhesive after the coatings of the 127 fibers were stripped. The diameter of the fiber bundle was 6 mm. The total output power of such a bundle was 152 W with electro-optical conversion efficiency of 27.56%and the RMS power instability was less than ±1% within 3 h.展开更多
基金This work was supported by the National Key R&D Program of China(Grant Nos.2018YFB0406903,2017YFB0405001,2016YFB0400803 and 2016YFB0401801)the Science Challenge Project(Grant No.TZ2016003)+5 种基金the National Natural Science Foundation of China(Grant Nos.62034008,62074142,62074140,61974162,61904172,and 61874175)the Youth Innovation Promotion Association of Chinese Academy of Sciences(Grant No.2019115)Beijing Nova Program(Grant No.202093)Beijing Municipal Science and Technology Project(Grant No.Z161100002116037)Jiangsu Institute of Advanced Semiconductors(IASEMI 2020-CRP-02)Young Elite Scientists Sponsorship Program by CAST.
文摘In this work,we reported the room-temperature continuous-wave operation of 6.0 W GaN-based blue laser diode(LD),and its stimulated emission wavelength is around 442 nm.The GaN-based high power blue LD is grown on a c-plane GaN substrate by metal organic chemical vapor deposition(MOCVD),and the width and length of the ridge waveguide structure are 30 and 1200μm,respectively.The threshold current is about 400 mA,and corresponding threshold current density is 1.1 kA/cm2.
基金Supported by the National Key Research and Development Program of China under Grant Nos 2016YFB0401803 and 2016YFB0402002the National Natural Science Foundation of China under Grant Nos 61574160 and 61334005+1 种基金the Strategic Priority Research Program of the Chinese Academy of Sciences under Grant No XDA09020401the Visiting Professorship for Senior International Scientists of the Chinese Academy of Sciences under Grant No 2013T2J0048
文摘Electroluminescence (EL) and temperature-dependent photolumineseenee measurements are performed to study the internal quantum efficiency droop phenomenon of blue laser diodes (LDs) before lasing. Based on the ABC mode, the EL result demonstrates that non-radiative recombination rates of LDs with threshold current densities of 4 and 6kA/cm2 are similar, while LD with threshold current density of 4kA/cm2 exhibits a smaller auger- like recombination rate compared with the one of 6kA/cm2. The internal quantum efficiency droop is more serious for LD with higher threshold current density. temperature-dependent photoluminescence is consistent The internal quantum efficiency value estimated from with EL measurements.
基金Ministry of Science and Technology,Taiwan(MOST)(MOST-106-2221-E-009-105-MY3)Aim for the Top University PlanMinistry of Education(MOE),Taiwan,China
文摘We propose and experimentally demonstrate a recorded 1-m bidirectional 20.231-Gbit/s tricolor R/G/B laser diode(LD) based visible-light communication(VLC) system supporting signal remodulation. In the signal remodulation system, an LD source is not needed at the client side. The client reuses the downstream signal sent from the central office(CO) and remodulates it to produce the upstream signal. As the LD sources are located at the CO, the laser wavelength and temperature managements at the cost-sensitive client side are not needed.This is the first demonstration, to our knowledge, of a >20 Gbit∕s data rate tricolor R/G/B VLC signal transmission supporting upstream remodulation.
基金National Natural Science Foundation of China(Grant Nos.91644107,61575206,51904009,and 41905130)National Key Research and Development Program of China(Grant Nos.2017YFC0209401,2017YFC0209403,and 2017YFC0209902)the Outstanding Young Talents Program of Anhui University,China(Grant No.gxyq2019022).
文摘An NO2 photoacoustic sensor system with a high reflective mirror based on a low power blue diode laser is developed in this work. The excitation power is enhanced by increasing the number of reflections. Comparing with a traditional photoacoustic system, the pool constant is improved from 300.24(Pa·cm)/W to 1450.64(Pa·cm)/W, and the signal sensitivity of the photoacoustic sensor is increased from 0.016 μV/ppb to 0.2562 μV/ppb. The characteristics of temperature and humidity of the new photoacoustic sensor are also obtained, and the algorithm is adjusted to provide a quantitative response and drift of the resonance frequency. The results of this research provide a new method and concept for further developing the NO2 photoacoustic sensors.
基金Supported by the China Academy of Space Technology Foundation under Grant No CAST-2015-5-10the National Hi-Tech Research and Development Programthe National Natural Science Foundation of China under Grant No 91436210
文摘We report a 42Ohm external cavity diode laser with an interference filter (IF) of 0.5am narrow-bandwidth and 79% high transmission, which is first used for Rb optical frequency standard. The IF and the cat-eye reflector are used for selecting wavelength and light feedback, respectively. The measured laser linewidth is 24 kHz when the diode laser is free running. Using this narrow-linewidth IF blue diode laser, we realize a compact Rb optical frequency standard without a complicated PDH system. The preliminary stability of the Rb optical frequency standard is 2 × 10^-13 at I s and decreases to 1.9 ×10^-14 at 1000s. The narrow-linewidth characteristic makes the IF blue diode laser a well suited candidate for the compact Rb optical frequency standard.
基金partially funded by Blueray Medicalpartially funded by China's National Key R&D Programs(NKPs)“Digital Diagnostic and Treatment Equipment”under 2019YFC0121500Shaanxi“Key Industry Innovation Chain-Social Development”under 2018ZDXM-SF-072.
文摘This paper explores the advancement and application of high-power blue diode lasers in treating benign prostatic hyperplasia(BPH).Addressing the challenges posed by existing techniques,the study focuses on optimizing tissue removal methods.Energy platform for BPH should balance a range of factors,such as operative time,patient conditions,urinary functions,complications,durability,accessibility,and cost,all while prioritizing patient care.Blueray Medical's innovation of high-power blue diode laser systems for BPH surgery is explored,with emphasis on achieving a balance among these considerations.By illustrating the biomedical effects of lasers and their interaction with soft tissues,particularly emphasizing the role of photon absorption by biomolecules and proteins in tissue behavior,this study outlines the advantages of the highpower blue diode laser system.The initial laboratory experiments and clinical results consistently align with our theoretical predictions,especially in terms of tissue vaporization efficiency,tissue coagulation,and bleeding control.In conclusion,blue diode lasers hold potential to enhance surgical outcomes for BPH.Their unique properties offer benefits like improved tissue removal rate and reduced thermal damages.Integrating blue laser technology into BPH protocols could lead to shorter hospital stays,cost savings,and expanded patient eligibility,although rigorous clinical studies are needed to fully understand their benefits and limitations.
基金Project supported by the Beijing Engineering Technology Research Center of All-Solid-State Lasers Advanced Manufacturing the National High Technology Research and Development Program of China(No.2014AA032607)+1 种基金the National Natural Science Foundation of China(Nos.61404135,61405186,61308032,61308033)the National Key R&D Program of China(Nos.2016YFB0401804,2016YFB0402002)
文摘We demonstrate a high-power blue diode laser operated at 447 nm combining laser diodes using an optical fiber bundle. As many as 127 diode lasers at 447 nm were coupled into 400 μm/0.22 NA fibers using an aspherical lens group with different focus lengths. The bare fibers were mechanically bundled through high temperature ultraviolet adhesive after the coatings of the 127 fibers were stripped. The diameter of the fiber bundle was 6 mm. The total output power of such a bundle was 152 W with electro-optical conversion efficiency of 27.56%and the RMS power instability was less than ±1% within 3 h.