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- W38753956 abstract "We describe recent advances in the development of optically pumped passively mode-locked semiconductor lasers; ultrashort pulse sources that begin to offer levels of pulse duration, beam quality, and average power that formerly belonged only to diode-pumped solid-state lasers (DPSSLs) based on impurity-doped dielectric gain media. Unlike dielectric gain media, however, III–V semiconductors exhibit immense spectral versatility, with alloy compositions allowing emission wavelengths spanning the spectrum from visible through to the mid-infrared. Within the past few years, it has been shown that strained InGaAs/GaAs quantum well lasers operating around 1 μm are capable of generating transform-limited pulse durations of 100 fs or less; and moreover, that sub-400-fs pulses with > 300 W peak power, and 1.5-ps pulses with ∼ 500 W peak power can be generated. Very recently, material systems other than InGaAs quantum wells have been used to demonstrate femtosecond mode locking, with results reported for a self-assembled quantum dot laser, a 2-μm antimonide laser and a 1.5-μm indium phosphide device. The vertical-external-cavity surface-emitting semiconductor laser, or VECSEL, mode-locked under the influence of a semiconductor saturable absorber mirror in the external cavity, is thus capable of bridging the gap in performance between mode-locked edge-emitting diodes and DPSSLs. A particular advantage of VECSELs is that they operate easily at repetition frequencies in the 1–20 GHz range, where dielectric lasers tend toward Q-switching instability, whereas monolithic diodes become inconveniently large – the range addressed both by electronics, and by the optical resolution of simple grating devices." @default.
- W38753956 created "2016-06-24" @default.
- W38753956 creator A5014687689 @default.
- W38753956 creator A5043390719 @default.
- W38753956 creator A5043670785 @default.
- W38753956 date "2012-01-01" @default.
- W38753956 modified "2023-10-14" @default.
- W38753956 title "Ultrafast Vertical-External-Cavity Surface-Emitting Semiconductor Lasers" @default.
- W38753956 cites W170032822 @default.
- W38753956 cites W1738562848 @default.
- W38753956 cites W1930372933 @default.
- W38753956 cites W1967154264 @default.
- W38753956 cites W1967428820 @default.
- W38753956 cites W1972440104 @default.
- W38753956 cites W1973475215 @default.
- W38753956 cites W1974549027 @default.
- W38753956 cites W1976981022 @default.
- W38753956 cites W1977102407 @default.
- W38753956 cites W1980683442 @default.
- W38753956 cites W1982833188 @default.
- W38753956 cites W1983270914 @default.
- W38753956 cites W1984509976 @default.
- W38753956 cites W1988839222 @default.
- W38753956 cites W1990704505 @default.
- W38753956 cites W1991907882 @default.
- W38753956 cites W1996830565 @default.
- W38753956 cites W2001077121 @default.
- W38753956 cites W2001163218 @default.
- W38753956 cites W2005873727 @default.
- W38753956 cites W2010330000 @default.
- W38753956 cites W2012406112 @default.
- W38753956 cites W2013989033 @default.
- W38753956 cites W2016833981 @default.
- W38753956 cites W2022211886 @default.
- W38753956 cites W2022738423 @default.
- W38753956 cites W2027177721 @default.
- W38753956 cites W2027856640 @default.
- W38753956 cites W2029034297 @default.
- W38753956 cites W2031477611 @default.
- W38753956 cites W2032891534 @default.
- W38753956 cites W2033284708 @default.
- W38753956 cites W2037177977 @default.
- W38753956 cites W2041186863 @default.
- W38753956 cites W2041309831 @default.
- W38753956 cites W2041457495 @default.
- W38753956 cites W2043656460 @default.
- W38753956 cites W2045948186 @default.
- W38753956 cites W2050324419 @default.
- W38753956 cites W2051712490 @default.
- W38753956 cites W2053615919 @default.
- W38753956 cites W2055914982 @default.
- W38753956 cites W2058848352 @default.
- W38753956 cites W2060560969 @default.
- W38753956 cites W2061955534 @default.
- W38753956 cites W2063521707 @default.
- W38753956 cites W2069024873 @default.
- W38753956 cites W2071232083 @default.
- W38753956 cites W2071859860 @default.
- W38753956 cites W2078676657 @default.
- W38753956 cites W2088172579 @default.
- W38753956 cites W2093208329 @default.
- W38753956 cites W2098328288 @default.
- W38753956 cites W2106804392 @default.
- W38753956 cites W2107190666 @default.
- W38753956 cites W2115854978 @default.
- W38753956 cites W2116320290 @default.
- W38753956 cites W2119958415 @default.
- W38753956 cites W2129241737 @default.
- W38753956 cites W2129679049 @default.
- W38753956 cites W2130850915 @default.
- W38753956 cites W2134624628 @default.
- W38753956 cites W2141253440 @default.
- W38753956 cites W2142704384 @default.
- W38753956 cites W2143249004 @default.
- W38753956 cites W2143468564 @default.
- W38753956 cites W2145333932 @default.
- W38753956 cites W2145989138 @default.
- W38753956 cites W2146072229 @default.
- W38753956 cites W2148988874 @default.
- W38753956 cites W2152060061 @default.
- W38753956 cites W2153135124 @default.
- W38753956 cites W2157211825 @default.
- W38753956 cites W2162048003 @default.
- W38753956 cites W2169143309 @default.
- W38753956 cites W2592081005 @default.
- W38753956 cites W2903536560 @default.
- W38753956 cites W2106225206 @default.
- W38753956 doi "https://doi.org/10.1016/b978-0-12-391066-0.00007-1" @default.
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