Add to ORKGInternational audienceIn a semi-conductor optical amplifier (SOA) or a laser, the behavior of the device can be effected the temperature elevation due to high current injection level in the chip and a limited efficiency. For example, the optical output power of a laser or the optical gain in a SOA is reduced when the temperature of the junction increases. This latter can be controlled or monitored thanks to a thermo-electronic cooler (or a Peltier element) and a thermistor. In this paper, we calculate the thermal dissipation in semiconductor Optical Amplifier and laser. We investigate the effect of the material composition, the number of wells, the type of structure (Buried or Ridge), on the thermal resistance of the component and try to ex...
Finite element analysis is used to study heat flow in a 2.3-mum semiconductor disk laser (or vertica...
In FY96, they proposed and demonstrated a thermally robust semiconductor optical amplifier at 1.5 {m...
We present finite difference thermal modeling to predict temperature distribution, heat flux, and th...
International audienceIn a semi-conductor optical amplifier (SOA) or a laser, the behavior of the de...
International audienceIn this paper, we calculate the thermal dissipation in semiconductor Optical A...
International audienceIn a semi-conductor optical amplifier (SOA) as in any other optical devices, t...
The thermal response of a semiconductor laser diode is studied through two different methods based o...
Quantum well lasers have been extremely successful in a wide range of applications, with optical fib...
Semiconductor lasers have become one of the most ubiquitous classes of lasers due to their efficienc...
Abstract-The thermal behavior of visible AIGaInP-GaInP ridge laser diodes is investigated numericall...
Abstract—We analyze the high-temperature continuous-wave performance of 1.3- m AlGaInAs/InP laser di...
International audienceThermal management is one of the most important issues for today's microelectr...
Finite element analysis is used to study heat flow in a 2.3-mu m semiconductor disk laser (or vertic...
High-power, broad-area, semiconductor lasers are attractive sources for material processing, aerospa...
Finite element analysis is used to study heat flow in a 2.3-mum semiconductor disk laser (or vertica...
In FY96, they proposed and demonstrated a thermally robust semiconductor optical amplifier at 1.5 {m...
We present finite difference thermal modeling to predict temperature distribution, heat flux, and th...
International audienceIn a semi-conductor optical amplifier (SOA) or a laser, the behavior of the de...
International audienceIn this paper, we calculate the thermal dissipation in semiconductor Optical A...
International audienceIn a semi-conductor optical amplifier (SOA) as in any other optical devices, t...
The thermal response of a semiconductor laser diode is studied through two different methods based o...
Quantum well lasers have been extremely successful in a wide range of applications, with optical fib...
Semiconductor lasers have become one of the most ubiquitous classes of lasers due to their efficienc...
Abstract-The thermal behavior of visible AIGaInP-GaInP ridge laser diodes is investigated numericall...
Abstract—We analyze the high-temperature continuous-wave performance of 1.3- m AlGaInAs/InP laser di...
International audienceThermal management is one of the most important issues for today's microelectr...
Finite element analysis is used to study heat flow in a 2.3-mu m semiconductor disk laser (or vertic...
High-power, broad-area, semiconductor lasers are attractive sources for material processing, aerospa...
Finite element analysis is used to study heat flow in a 2.3-mum semiconductor disk laser (or vertica...
In FY96, they proposed and demonstrated a thermally robust semiconductor optical amplifier at 1.5 {m...
We present finite difference thermal modeling to predict temperature distribution, heat flux, and th...