63 lines
2.6 KiB
BibTeX
Executable File
63 lines
2.6 KiB
BibTeX
Executable File
@article{Reference1,
|
|
Abstract = {We have developed an enhanced Littrow configuration
|
|
extended cavity diode laser (ECDL) that can be tuned without
|
|
changing the direction of the output beam. The output of a
|
|
conventional Littrow ECDL is reflected from a plane mirror fixed
|
|
parallel to the tuning diffraction grating. Using a free-space
|
|
Michelson wavemeter to measure the laser wavelength, we can tune
|
|
the laser over a range greater than 10 nm without any alteration of
|
|
alignment.},
|
|
Author = {C. J. Hawthorn and K. P. Weber and R. E. Scholten},
|
|
Journal = {Review of Scientific Instruments},
|
|
Month = {12},
|
|
Number = {12},
|
|
Numpages = {3},
|
|
Pages = {4477--4479},
|
|
Title = {Littrow Configuration Tunable External Cavity Diode Laser
|
|
with Fixed Direction Output Beam},
|
|
Volume = {72},
|
|
Url = {http://link.aip.org/link/?RSI/72/4477/1},
|
|
Year = {2001}}
|
|
|
|
@article{Reference3,
|
|
Abstract = {Operating a laser diode in an extended cavity which
|
|
provides frequency-selective feedback is a very effective method of
|
|
reducing the laser's linewidth and improving its tunability. We
|
|
have developed an extremely simple laser of this type, built from
|
|
inexpensive commercial components with only a few minor
|
|
modifications. A 780~nm laser built to this design has an output
|
|
power of 80~mW, a linewidth of 350~kHz, and it has been
|
|
continuously locked to a Doppler-free rubidium transition for several days.},
|
|
Author = {A. S. Arnold and J. S. Wilson and M. G. Boshier and J. Smith},
|
|
Journal = {Review of Scientific Instruments},
|
|
Month = {3},
|
|
Number = {3},
|
|
Numpages = {4},
|
|
Pages = {1236--1239},
|
|
Title = {A Simple Extended-Cavity Diode Laser},
|
|
Volume = {69},
|
|
Url = {http://link.aip.org/link/?RSI/69/1236/1},
|
|
Year = {1998}}
|
|
|
|
@article{Reference2,
|
|
Abstract = {We present a review of the use of diode lasers in
|
|
atomic physics with an extensive list of references. We discuss the
|
|
relevant characteristics of diode lasers and explain how to
|
|
purchase and use them. We also review the various techniques that
|
|
have been used to control and narrow the spectral outputs of diode
|
|
lasers. Finally we present a number of examples illustrating the
|
|
use of diode lasers in atomic physics experiments. Review of
|
|
Scientific Instruments is copyrighted by The American Institute of Physics.},
|
|
Author = {Carl E. Wieman and Leo Hollberg},
|
|
Journal = {Review of Scientific Instruments},
|
|
Keywords = {Diode Laser},
|
|
Month = {1},
|
|
Number = {1},
|
|
Numpages = {20},
|
|
Pages = {1--20},
|
|
Title = {Using Diode Lasers for Atomic Physics},
|
|
Volume = {62},
|
|
Url = {http://link.aip.org/link/?RSI/62/1/1},
|
|
Year = {1991}}
|
|
|