Your search keyword '"Hong-Ky Nguyen"' showing total 19 results

1. Long-term reliability study and failure analysis of quantum cascade lasers

Author

Hong-Ky Nguyen, Kevin Lascola, Feng Xie, H.P. Leblanc, Dean J. Miller, Larry Hughes, and Jie Wang

Subjects

Mean time between failures, Materials science, business.industry, Heterojunction, 02 engineering and technology, 021001 nanoscience & nanotechnology, Laser, law.invention, Accelerated life testing, 020210 optoelectronics & photonics, law, Cascade, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Light emission, 0210 nano-technology, Quantum cascade laser, business, Current density

Abstract

Here we present lifetime test results of 4 groups of quantum cascade lasers (QCL) under various aging conditions including an accelerated life test. The total accumulated life time exceeds 1.5 million device·hours, which is the largest QCL reliability study ever reported. The longest single device aging time was 46.5 thousand hours (without failure) in the room temperature test. Four failures were found in a group of 19 devices subjected to the accelerated life test with a heat-sink temperature of 60 °C and a continuous-wave current of 1 A. Visual inspection of the laser facets of failed devices revealed an astonishing phenomenon, which has never been reported before, which manifested as a dark belt of an unknown substance appearing on facets. Although initially assumed to be contamination from the environment, failure analysis revealed that the dark substance is a thermally induced oxide of InP in the buried heterostructure semiinsulating layer. When the oxidized material starts to cover the core and blocks the light emission, it begins to cause the failure of QCLs in the accelerated test. An activation energy of 1.2 eV is derived from the dependence of the failure rate on laser core temperature. With the activation energy, the mean time to failure of the quantum cascade lasers operating at a current density of 5 kA/cm2 and heat-sink temperature of 25°C is expected to be 809 thousand hours.

Published

2017

2. Differential Resistance Testing for InP-Based Semiconductor Optical Amplifiers

Author

Martin H. Hu, Hong Ky Nguyen, M. Wieckowski, and M. Margala

Subjects

Optical amplifier, Engineering, Subthreshold conduction, business.industry, Atomic and Molecular Physics, and Optics, Signature (logic), law.invention, Semiconductor, law, Electronic engineering, Optical circulator, Stimulated emission, Resistor, business, Testability

Abstract

A new method for electrically measuring optical performance degradation in InP-based semiconductor optical amplifiers (SOAs) is presented. It is shown that this degradation can be directly qualified through measurements of electrical subthreshold differential resistance. Experimental measurements are presented along with a theoretical analysis to demonstrate a proposed aging signature. Furthermore, two system designs are presented based on using this signature for enhancing device testability.

Published

2009

3. Grating stabilization design for high-power 980-nm semiconductor pump lasers

Author

M.K. Davis, S. Balsamo, Hong Ky Nguyen, G.M. Smith, D.A.S. Loeber, G. Ghislotti, and Martin H. Hu

Subjects

Distributed feedback laser, Optical fiber, Materials science, Laser diode, business.industry, Physics::Optics, Grating, Laser, Atomic and Molecular Physics, and Optics, Semiconductor laser theory, law.invention, Optics, Fiber Bragg grating, law, Optoelectronics, Physics::Atomic Physics, Electrical and Electronic Engineering, business, Tunable laser

Abstract

Wavelength stabilization of high-power pump lasers for fiber amplifier applications involves complex interactions between the laser chip and the fiber Bragg grating (FBG). We present a comprehensive theoretical model for the window of operation in the coherence collapse (CC) regime while maintaining wavelength locking in 980-nm FBG-stabilized pumps. Experimental data from the development of a 500-mW grating stabilized pump verifies the theory. We also provide the first evidence that the critical feedback distance for CC operation of longer laser diode chips is sensitive to detuning.

Published

2005

4. Comparison Between Epi-Down and Epi-Up Bonded High-Power Single-Mode 980-nm Semiconductor Lasers

Author

Hong Ky Nguyen, Xingsheng Liu, Michael H. Rasmussen, Catherine Caneau, Chung-En Zah, Martin H. Hu, and R.W. Davis

Subjects

Materials science, business.industry, Thermal resistance, Single-mode optical fiber, Optical power, Laser pumping, Laser, Semiconductor laser theory, law.invention, Reliability (semiconductor), law, Electronic engineering, Optoelectronics, Junction temperature, Electrical and Electronic Engineering, business

Abstract

Epi-down and epi-up bonded high-power single-mode 980-nm lasers have been studied in terms of bonding process, thermal behavior, optical performances, and long-term laser reliability. We demonstrated that epi-down bonding can offer lower thermal resistance and improved optical performance without degrading the long-term laser reliability. An optical power of 630 mW was obtained for the first time from an epi-down bonded 980-nm pump module. Our studies have shown that epi-down bonding of single-mode 980-nm lasers can reduce junction temperature and thermal resistance by up to 30%. Experimental measurements showed over 20% in thermal rollover power improvement and over 25% reduction in wavelength shift versus current in epi-down mounted lasers compared to epi-up mounted lasers. Lifetime test over 14 000 h at 500 mA and 80/spl deg/C of the epi-down bonded lasers is reported for the first time.

Published

2004

5. 107-mW low-noise green-light emission by frequency doubling of a reliable 1060-nm DFB semiconductor laser diode

Author

Hong Ky Nguyen, Jacques Gollier, Kechang Song, Rajaram Bhat, Nick Visovsky, Yabo Li, Chung-En Zah, Lawrence C. Hughes, Martin H. Hu, Xingsheng Liu, and Nobuhiko Nishiyama

Subjects

Materials science, Laser diode, business.industry, Relative intensity noise, Lithium niobate, Nonlinear optics, Laser, Waveguide (optics), Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, law.invention, Semiconductor laser theory, chemistry.chemical_compound, Optics, chemistry, law, Optoelectronics, Stimulated emission, Electrical and Electronic Engineering, business

Abstract

We have generated 107-mW green-light emission by frequency doubling of a reliable 1060-nm distributed feedback (DFB) laser diode using a periodically poled MgO-doped lithium niobate waveguide in the most compact single-pass configuration. The green power variation is lower than 1% at frequencies below 82 kHz. The relative intensity noise of -150 dB/Hz has been measured at 100 MHz. We also report 5000-h life-test results of 1060-nm DFB lasers at 80/spl deg/C.

Published

2006

6. High-power high-Modulation-speed 1060-nm DBR lasers for Green-light emission

Author

Hong Ky Nguyen, Xingsheng Liu, William James Miller, Yabo Li, Nick Visovsky, Sean Coleman, Chung-En Zah, Kechang Song, Martin H. Hu, Lawrence C. Hughes, Jacques Gollier, Nobuhiko Nishiyama, and Rajaram Bhat

Subjects

Materials science, business.industry, Nonlinear optics, Laser, Distributed Bragg reflector, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, law.invention, Semiconductor laser theory, Wavelength, Optics, Distributed Bragg reflector laser, law, Optoelectronics, Electrical and Electronic Engineering, business, Intensity modulation, Tunable laser

Abstract

We report on the static and dynamic performance of high-power and high-modulation-speed 1060-nm distributed Bragg reflector (DBR) lasers for green-light emission by second-harmonic generation. Single-wavelength power of 387 mW at 1060-nm wavelength and green power as high as 99.5 mW were achieved. A thermally induced wavelength tuning of 2.4 nm and a carrier-induced wavelength tuning of -0.85 nm were obtained by injecting current into the DBR section. Measured rise-fall times of 0.2 ns for direct intensity modulation and 0.6 ns for wavelength modulation make the lasers suitable for >50-MHz green-light modulation applications

Published

2006

7. High-Performance 980-nm Ridge Waveguide Lasers With a Nearly Circular Beam

Author

Guowen Yang, Hong-Ky Nguyen, A. Kussmaul, Martin H. Hu, M.K. Davis, Chung-En Zah, G.M. Smith, D.A.S. Loeber, and Rajaram Bhat

Subjects

Materials science, business.industry, Physics::Optics, Laser, Aspect ratio (image), Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Power (physics), law.invention, Wavelength, Optics, Fiber Bragg grating, law, Optoelectronics, Fiber, Electrical and Electronic Engineering, business, Beam (structure), Beam divergence

Abstract

We report high-performance 980-nm ridge waveguide quantum-well lasers with extremely low vertical beam divergence of 13/spl deg/. A very small aspect ratio of 1.6 is obtained at high operating power of 900 mW. In addition to the more circular beam, low threshold, high efficiency, high characteristic temperature, and high output power of over 1.18 W are achieved. The fiber coupled output power can be as high as 680 mW with fiber Bragg grating stabilization. Excellent wavelength and power stability are also demonstrated.

Published

2004

8. Long term reliability study and life time model of quantum cascade lasers

Author

Dean J. Miller, Hong-Ky Nguyen, Feng Xie, Larry Hughes, Kevin Lascola, Jie Wang, Jianguo Wen, and H.P. Leblanc

Subjects

Mean time between failures, Materials science, Physics and Astronomy (miscellaneous), Failure rate, 02 engineering and technology, Mechanics, 021001 nanoscience & nanotechnology, Laser, law.invention, 020210 optoelectronics & photonics, law, Cascade, 0202 electrical engineering, electronic engineering, information engineering, 0210 nano-technology, Quantum cascade laser, Current density, Failure mode and effects analysis, Quantum

Abstract

Here, we present results of quantum cascade laser lifetime tests under various aging conditions including an accelerated life test. The total accumulated life time exceeds 1.5 × 106 device hours. The longest single device aging time was 46 500 hours without failure in the room temperature aging test. Four failures were found in a group of 19 devices subjected to the accelerated life test with a heat-sink temperature of 60 °C and a continuous-wave current of 1 A. Failure mode analyses revealed that thermally induced oxidation of InP in the semi-insulating layer is the cause of failure. An activation energy of 1.2 eV is derived from the dependence of the failure rate on laser core temperature. The mean time to failure of the quantum cascade lasers operating at a typical condition with the current density of 5 kA/cm2 and heat-sink temperature of 25 °C is expected to be 809 000 hours.

Published

2016

9. Reliability and qualification of high-power wavelength-tunable 1060-nm laser diode for ultra-compact laser projector application

Author

Nick Visovsky, Yabo Li, Hong Ky Nguyen, Chung-En Zah, Sean Coleman, and Kechang Song

Subjects

Laser projector, Wavelength, Reliability (semiconductor), Materials science, Optics, Laser diode, law, business.industry, Optoelectronics, business, law.invention, Semiconductor laser theory, Power (physics)

Abstract

We report highly reliable 1060-nm DBR semiconductor lasers after aging the gain section and DBR-section heater for up to 24000 and 11000 hrs, respectively, at various high-stress conditions.

Published

2009

10. 304 mW green light emission by frequency doubling of a high-power 1060-nm DBR semiconductor laser diode

Author

Martin H. Hu, Yabo Li, Hong Ky Nguyen, Chung-En Zah, Nick Visovsky, Kechang Song, and Sean Coleman

Subjects

Materials science, Laser diode, business.industry, Lithium niobate, Physics::Optics, Second-harmonic generation, Nonlinear optics, Laser, law.invention, Semiconductor laser theory, chemistry.chemical_compound, Optics, Distributed Bragg reflector laser, chemistry, law, Optoelectronics, business, Diode

Abstract

We report for the first time, to the best of our knowledge, 304 mW green light emission generated by frequency doubling of the output from a 1060-nm DBR semiconductor laser using a periodically poled MgO-doped lithium niobate waveguide in a compact single-pass configuration. The excellent performance of these DBR lasers, including a kink-free power greater than 750 mW, single-spatial-mode output beam, single-wavelength emission spectra, and high wavelength-tuning efficiency, plays an important role in the generation of high-power green light.

Published

2008

11. 480-mW DBR Laser Integrated with Micro Heaters for Wavelength Tuning

Author

Yabo Li, Chung-En Zah, Martin H. Hu, Hong Ky Nguyen, Sean Coleman, Kechang Song, and Nick Visovsky

Subjects

Waveguide lasers, Materials science, business.industry, Nonlinear optics, Laser, Semiconductor laser theory, Power (physics), law.invention, Wavelength, Optics, Distributed Bragg reflector laser, law, Optoelectronics, business, Laser beams

Abstract

We fabricated 1060-nm DBR lasers with 480-mW output power and integrated micro heaters. A 20-nm discrete wavelength tuning using Bragg-section heater alone and a 1-nm continuous tuning using both Bragg- and phase-section heaters are demonstrated.

Published

2007

12. Reliability of High-Power 1060-nm DBR Lasers

Author

Yabo Li, Chung-En Zah, R.W. Davis, D.A.S. Loeber, Hong Ky Nguyen, Nick Visovsky, Martin H. Hu, Sean Coleman, and Kechang Song

Subjects

Materials science, Distributed Bragg reflector laser, Quantum dot laser, business.industry, Optoelectronics, Laser power scaling, Laser pumping, Injection seeder, business, Tunable laser, Quantum well, Semiconductor laser theory

Abstract

We report highly reliable 1060-nm DBR lasers with a single-wavelength output power larger than 350 mW and a failure rate as low as 3.2 kFITs at a heat-sink temperature of 25degC and a gain current of 500 mA. The reliability data of the high-power 1060-nm DBR lasers under longest aging tests at the highest level of current and temperature stress have been obtained for the first time, to the best of our knowledge

Published

2006

13. High-power distributed Bragg reflector lasers for green-light generation

Author

Sean Coleman, Xingsheng Liu, Hong Ky Nguyen, Martin H. Hu, Nick Visovsky, Raj Bhat, Jacques Gollier, Yabo Li, Lawrence C. Hughes, Kechang Song, Chung-En Zah, William James Miller, and Nobuhiko Nishiyama

Subjects

Physics, business.industry, Second-harmonic generation, Bragg's law, Nonlinear optics, Laser, Waveguide (optics), law.invention, Optics, Distributed Bragg reflector laser, law, Optoelectronics, business, Intensity modulation, Quantum well

Abstract

We report on the design, fabrication and performance of high-power and high-modulation-speed 1060-nm DBR lasers for green-light emission by second harmonic generation. Single-spatial-mode and single-wavelength power more than 450 mW of 1060-nm wavelength was achieved with a 3-section DBR laser with non-absorbing DBR and phase sections created by an impurity-free quantum-well intermixing technique. A thermally-induced wavelength tuning of 2.4 nm and a carrier-induced wavelength tuning of -0.85 nm were obtained by injecting current into the DBR section. The green power as high as 104.6 mW was demonstrated by coupling the DBR laser output to a second-harmonic-generation waveguide. Measured rise/fall times of 0.2 ns for direct intensity modulation and 0.6 ns for wavelength modulation make the DBR lasers suitable for >=50-MHz green-light-modulation applications. The detrimental thermally-induced patterning effect and a differential-phase modulation scheme as a solution are discussed.

Published

2006

14. 1.3-1.5 μm quantum dot lasers on foreign substrates: growth using defect reduction technique, high-power CW operation, and degradation resistance

Author

Hong Ky Nguyen, Mikhail V. Maximov, A. R. Kovsh, Peter Werner, Igor Krestnikov, A. V. Kozhukhov, Vitaly Shchukin, K. Posilovic, Nikolai Zakharov, T. Kettler, I. I. Novikov, N. N. Ledentsov, S. S. Mikhrin, Martin H. Hu, Dieter Bimberg, Kechang Song, V. M. Ustinov, Yu. M. Shernyakov, I. P. Soshnikov, Chung-En Zah, A. E. Zhukov, Yu. G. Musikhin, and Leonid Ya. Karachinsky

Subjects

Materials science, business.industry, Laser, law.invention, Semiconductor laser theory, chemistry.chemical_compound, Optics, chemistry, Quantum dot laser, Quantum dot, law, Etching (microfabrication), Optoelectronics, Quantum efficiency, Dislocation, business, Indium gallium arsenide

Abstract

We have performed a systematic study of structural and optical properties of Quantum dot (QDs) lasers based on InAs/InGaAs quantum dots grown on GaAs substrates emitting in the 1.3 - 1.5 μm range. 1.3 μm range QD lasers are grown using GaAs as matrix material. It is shown that the lasers, grown with large number of QD stacks are metamorphic, with plastic relaxation occurring through the formation of misfit dislocations. Thus, 1.3 μm QD lasers with large number of stacks grown without strain compensation are metamorphic. Another type of defects is related to local dislocated clusters, which are the most dangerous. When proper optimization of the growth conditions is carried out, including a selective thermal etching off of statistically formed dislocated clusters through the defect-reduction technique (DRT), no significant impact of misfit dislocations on the degradation robustness is observed. In uncoated devices a high cw single mode power of ~700 mW is realized limited by thermal roll-over, which is not affected by 500 h ageing at room temperature. At elevated temperatures the main degradation mechanism revealed is catastrophic optical mirror damage (COMD). When the facet are passivated, the devices show the extrapolated operation lifetime in excess of 10 6 h at 40°C at ~100 mW cw single mode output power. Longer wavelength (1.4 - 1.5 μm) devices are grown on metamorphic (In,Ga,Al)As layers deposited on GaAs substrates. In this case, the plastic relaxation occurs through formation of both misfit and threading dislocations. The latter kill the device performance. Using DRT in this case enables blocking of threading dislocation with growth of QDs in defect-free upper layers. DRT is realized by selective capping of the defect-free areas and high-temperature etching of nano-holes at the non-capped regions near the dislocation. The procedure results in etching of holes and is followed by fast lateral overgrowth with merger of the growth fronts. If the defect does not propagate into the upper layer when the hole is capped, the upper layers become defect-free. Lasers based on this approach exhibited emission wavelength in the 1.4 -1.5 μm range with a differential quantum efficiency of about ~50%. The narrow-stripe lasers operate in a single transverse mode and withstand continuous current density above 20 kA cm -2 without degradation. A maximum continuous-wave output power of 220 mW limited by thermal roll-over is obtained. No beam filamentation was observed up to the highest pumping levels. Narrow stripe devices with as-cleaved facets are tested for 60°C (800 h) and 70°C (200 h) on-chip temperature. No noticeable degradation has been observed at 50 mW cw single mode output power. This shows the possibility of degradation-robust devices on foreign substrates. The technology opens a way for integration of various III-V materials and may target degradation-free lasers on silicon for further convergence of computing and communications.

Published

2006

15. High power 1060-nm raised-ridge strained single-quantum-well lasers

Author

Nick Visovsky, Martin H. Hu, Yabo Li, Hong Ky Nguyen, Chung-En Zah, Xingsheng Liu, Nobuhiko Nishiyama, Rajaram Bhat, and Kechang Song

Subjects

Facet (geometry), Materials science, High power lasers, business.industry, Laser, law.invention, Power (physics), Gallium arsenide, chemistry.chemical_compound, Optics, chemistry, law, Ridge (meteorology), Optoelectronics, business, Laser beams, Quantum well

Abstract

We report a high kink-free facet power of 852 mW and a high single-wavelength facet power of 350 mW for 1060-nm raised-ridge Fabry-Perot (FP) and distributed-feedback (DFB) lasers, respectively.

Published

2005

16. Reliable high-power 1060 nm DBR lasers for second-harmonic generation

Author

Hong Ky Nguyen, Jun., Kechang Song, Yabo Li, Chung-En Zah, R.W. Davis, Martin H. Hu, Nick Visovsky, and Sean Coleman

Subjects

Physics, business.industry, Second-harmonic generation, Nonlinear optics, Heat sink, Green-light, Laser, law.invention, Power (physics), Semiconductor laser theory, Optics, Distributed Bragg reflector laser, law, Optoelectronics, Electrical and Electronic Engineering, business

Abstract

Highly reliable 1060 nm DBR lasers are reported with a single-wavelength output power greater than 350 mW and a failure rate as low as 1.7 kFITs, at a heatsink temperature of 25 C and a gain current of 500 mA. The green-light power of up to 184 mW has been generated by frequency doubling of these DBR lasers.

Published

2007

17. Measurement of intrinsic dynamics of SOA using outband optical modulation

Author

Hong Ky Nguyen, Xingsheng Liu, Martin H. Hu, Nick Visovsky, Nobuhiko Nishiyama, Herve P. LeBlanc, Chung-En Zah, and Catherine Caneau

Subjects

Optical amplifier, Physics, Optics, business.industry, Modulation, Computer Science::Software Engineering, Optoelectronics, Carrier lifetime, Electrical and Electronic Engineering, business, behavioral disciplines and activities, Transmission function

Abstract

A parasitic-free technique using outband optical modulation for measuring a semiconductor optical amplifier's (SOA's) dynamic response is proposed. It is demonstrated that a counter-propagating scheme is useful in measuring the carrier lifetimes and the response obtained with a co-propagating scheme includes the transmission function of an SOA.

Published

2004

18. Wavelength and power stabilisation of uncooled 975 nm thick quantum well lasers over 110°C temperature range

Author

Hong Ky Nguyen, Martin H. Hu, Yabo Li, Xingsheng Liu, Chung-En Zah, Nick Visovsky, Kechang Song, and Rajaram Bhat

Subjects

Materials science, Laser diode, business.industry, Atmospheric temperature range, Laser, Power (physics), law.invention, Wavelength, Optics, Fiber Bragg grating, law, Optoelectronics, Electrical and Electronic Engineering, business, Quantum well

Abstract

The use of a thick quantum well enables coherence-collapse operation of a Bragg grating stabilised laser diode over 110°C temperature range, yielding 975 nm wavelength emission with >40 dB sidemode suppression ratio

Published

2004

19. Dual-thermistor temperature control for semiconductor lasers

Author

Hong Ky Nguyen, Xingsheng V. Liu, Chung-En Zah, and Martin H. Hu

Subjects

Materials science, Laser diode, business.industry, Thermistor, Far-infrared laser, Semiconductor laser theory, Vertical-cavity surface-emitting laser, law.invention, law, Diode-pumped solid-state laser, Optoelectronics, Junction temperature, Electrical and Electronic Engineering, business, Tunable laser

Abstract

A technique using two thermistors for maintaining junction temperature of a laser diode over a wide current range is proposed. The wavelength of a 980 nm module was stabilised within 1 nm with this technique from 25 to 400 mA. compared to a wavelength shift of 5 nm with traditional one-thermistor control.

Published

2003