VECSEL Semiconductor Lasers: A Path to High‐Power, Quality Beam and UV to IR Wavelength by Design

Abstract: Since its invention and demonstration in 1960, several types of laser have been developed, such as solid-state, semiconductor, gas, excimer, and dye lasers [1]. Today, lasers are used in a wide range of important applications, particularly in optical fiber communication, optical digital recording (CD, DVD, and Blu-ray), laser materials processing, biology and medicine, spectroscopy, imaging, entertainment, and many others. A number of properties enable the application of lasers in these diverse areas, each app… Show more

“…EELs may emit very intense high−power radiation of the order of many watts, but their output beams contain many longitudi− nal modes and are very divergent, with astigmatism effects [1]. On the other hand, VCSELs emit low−divergent circu− larly symmetric output beams without astigmatism, but their single−mode emission is limited to relatively low output power of the order of a few milliwatts [2].…”

Thermal management of GaInNAs/GaAs VECSELs

“…EELs may emit very intense high−power radiation of the order of many watts, but their output beams contain many longitudi− nal modes and are very divergent, with astigmatism effects [1]. On the other hand, VCSELs emit low−divergent circu− larly symmetric output beams without astigmatism, but their single−mode emission is limited to relatively low output power of the order of a few milliwatts [2].…”

Thermal management of GaInNAs/GaAs VECSELs

“…To address the needs of the dermatologic community a novel laser technology, namely optically pumped semiconductor disk laser (SDL), has emerged to provide a compact and cost‐effective alternative for a yellow laser source. SDLs, also known as VECSELs (vertical external‐cavity surface‐emitting lasers), are recognized for their power scaling abilities, transverse mode control and the ability to tailor the emission wavelength according to specific application needs . With the addition of wavelength selective components and suitable laser cavity configurations, SDLs can also be designed to emit narrow linewidth and have a wavelength tuning range up to tens of nanometers .…”

Treatment of telangiectasia on the cheeks with a compact yellow (585 nm) semiconductor laser and a green (532 nm) KTP laser: a randomized double‐blinded split‐face trial

“…Optically-pumped semiconductor vertical-external-cavity surface-emitting lasers (VECSELs) have evolved rapidly during the past decade [1]. They are a very versatile type of laser, because a wide range of semiconductor materials can deliver a selection of emission wavelengths and tunability, and because the open cavity design enables easy integration of intracavity components and nonlinear processes.…”

Continuous-wave VECSEL Raman laser with tunable lime-yellow-orange output