Journal ArticleDOI
Optically Pumped Semiconductor Lasers for Precision Spectroscopic Applications
W. J. Alford,Gregory J. Fetzer,Ryan J. Epstein,Sandalphon,N. Van Lieu,Sanna Ranta,M. Tavast,Tomi Leinonen,Mircea Guina +8 more
TLDR
In this article, the authors describe the development and testing of optically pumped semiconductor lasers operating at fundamental wavelengths of 1119 and 1178 nm, and demonstrate continuously tunable, single-frequency lasers with watt-level average power at 1119, 1178, and 589 nm.Abstract:
Optically pumped semiconductor lasers in conjunction with intra-cavity frequency conversion and tuning elements offer high continuous-wave power, narrow linewidth, and broad tunability. As a result, they are well suited to precision spectroscopic applications. We describe the development and testing of optically pumped semiconductor lasers operating at fundamental wavelengths of 1119 and 1178 nm. The fourth and second harmonic wavelengths are resonant with transitions in Mg II and Na I, respectively. We demonstrate continuously tunable, single-frequency lasers with watt-level average power at 1119, 1178, and 589 nm.read more
Citations
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Optically pumped VECSELs: review of technology and progress
TL;DR: In this article, a review of the recent technological developments of VECSELs in connection with the new milestones that continue to pave the way towards their use in numerous applications is presented.
Journal ArticleDOI
A 23-watt single-frequency vertical-external-cavity surface-emitting laser
Fan Zhang,Bernd Heinen,Matthias Wichmann,Christoph Möller,Bernardette Kunert,Arash Rahimi-Iman,Wolfgang Stolz,Martin Koch +7 more
TL;DR: A single-frequency semiconductor disk laser which generates 23.6 W output power in continuous wave operation, at a wavelength of 1013 nm is reported on, a result of optimizing the chip design, thermal management and the cavity configuration.
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Optically pumped DBR-free semiconductor disk lasers
TL;DR: High power distributed Bragg reflector (DBR)-free semiconductor disk lasers are reported, with active regions lifted off and bonded to various transparent heatspreaders, demonstrating the high thermal impedance and narrow bandwidth of DBRs are mitigated.
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Quantum computing with trapped ions
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