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.}
title = {Astropy: {{A}} Community {{Python}} Package for Astronomy},
author = {{Astropy Collaboration} and Robitaille, Thomas P. and Tollerud, Erik J. and Greenfield, Perry and Droettboom, Michael and Bray, Erik and Aldcroft, Tom and Davis, Matt and Ginsburg, Adam and {Price-Whelan}, Adrian M. and Kerzendorf, Wolfgang E. and Conley, Alexander and Crighton, Neil and Barbary, Kyle and Muna, Demitri and Ferguson, Henry and Grollier, Fr{\'e}d{\'e}ric and Parikh, Madhura M. and Nair, Prasanth H. and Unther, Hans M. and Deil, Christoph and Woillez, Julien and Conseil, Simon and Kramer, Roban and Turner, James E. H. and Singer, Leo and Fox, Ryan and Weaver, Benjamin A. and Zabalza, Victor and Edwards, Zachary I. and Azalee Bostroem, K. and Burke, D. J. and Casey, Andrew R. and Crawford, Steven M. and Dencheva, Nadia and Ely, Justin and Jenness, Tim and Labrie, Kathleen and Lim, Pey Lian and Pierfederici, Francesco and Pontzen, Andrew and Ptak, Andy and Refsdal, Brian and Servillat, Mathieu and Streicher, Ole},
year = {2013},
month = oct,
volume = {558},
eprint = {1307.6212},
eprinttype = {arxiv},
primaryclass = {astro-ph.IM},
pages = {A33},
doi = {10.1051/0004-6361/201322068},
adsnote = {Provided by the SAO/NASA Astrophysics Data System},
title = {The Astropy Project: {{Building}} an Open-Science Project and Status of the v2.0 Core Package},
author = {{Astropy Collaboration} and {Price-Whelan}, A. M. and Sip{\H o}cz, B. M. and G{\"u}nther, H. M. and Lim, P. L. and Crawford, S. M. and Conseil, S. and Shupe, D. L. and Craig, M. W. and Dencheva, N. and Ginsburg, A. and VanderPlas, J. T. and Bradley, L. D. and {P{\'e}rez-Su{\'a}rez}, D. and {de Val-Borro}, M. and Aldcroft, T. L. and Cruz, K. L. and Robitaille, T. P. and Tollerud, E. J. and Ardelean, C. and Babej, T. and Bach, Y. P. and Bachetti, M. and Bakanov, A. V. and Bamford, S. P. and Barentsen, G. and Barmby, P. and Baumbach, A. and Berry, K. L. and Biscani, F. and Boquien, M. and Bostroem, K. A. and Bouma, L. G. and Brammer, G. B. and Bray, E. M. and Breytenbach, H. and Buddelmeijer, H. and Burke, D. J. and Calderone, G. and Cano Rodr{\'i}guez, J. L. and Cara, M. and Cardoso, J. V. M. and Cheedella, S. and Copin, Y. and Corrales, L. and Crichton, D. and D'Avella, D. and Deil, C. and Depagne, {\'E}. and Dietrich, J. P. and Donath, A. and Droettboom, M. and Earl, N. and Erben, T. and Fabbro, S. and Ferreira, L. A. and Finethy, T. and Fox, R. T. and Garrison, L. H. and Gibbons, S. L. J. and Goldstein, D. A. and Gommers, R. and Greco, J. P. and Greenfield, P. and Groener, A. M. and Grollier, F. and Hagen, A. and Hirst, P. and Homeier, D. and Horton, A. J. and Hosseinzadeh, G. and Hu, L. and Hunkeler, J. S. and Ivezi{\'c}, {\v Z}. and Jain, A. and Jenness, T. and Kanarek, G. and Kendrew, S. and Kern, N. S. and Kerzendorf, W. E. and Khvalko, A. and King, J. and Kirkby, D. and Kulkarni, A. M. and Kumar, A. and Lee, A. and Lenz, D. and Littlefair, S. P. and Ma, Z. and Macleod, D. M. and Mastropietro, M. and McCully, C. and Montagnac, S. and Morris, B. M. and Mueller, M. and Mumford, S. J. and Muna, D. and Murphy, N. A. and Nelson, S. and Nguyen, G. H. and Ninan, J. P. and N{\"o}the, M. and Ogaz, S. and Oh, S. and Parejko, J. K. and Parley, N. and Pascual, S. and Patil, R. and Patil, A. A. and Plunkett, A. L. and Prochaska, J. X. and Rastogi, T. and Reddy Janga, V. and Sabater, J. and Sakurikar, P. and Seifert, M. and Sherbert, L. E. and {Sherwood-Taylor}, H. and Shih, A. Y. and Sick, J. and Silbiger, M. T. and Singanamalla, S. and Singer, L. P. and Sladen, P. H. and Sooley, K. A. and Sornarajah, S. and Streicher, O. and Teuben, P. and Thomas, S. W. and Tremblay, G. R. and Turner, J. E. H. and Terr{\'o}n, V. and {van Kerkwijk}, M. H. and {de la Vega}, A. and Watkins, L. L. and Weaver, B. A. and Whitmore, J. B. and Woillez, J. and Zabalza, V. and {Astropy Contributors}},
keywords = {Astrophysics - Instrumentation and Methods for Astrophysics,methods: data analysis,methods: miscellaneous,methods: statistical,reference systems}
keywords = {Astrophysics - Earth and Planetary Astrophysics,methods: analytical,planets and satellites: detection,planets and satellites: fundamental parameters,techniques: radial velocities}
author = {Duda, R. O. and Hart, P. E. and Stork, D. G.},
year = {2000},
edition = {Second},
publisher = {{John Wiley and Sons}}
}
@article{ferland2013,
title = {The 2013 Release of Cloudy},
author = {Ferland, G. J. and Porter, R. L. and {van Hoof}, P. A. M. and Williams, R. J. R. and Abel, N. P. and Lykins, M. L. and Shaw, G. and Henney, W. J. and Stancil, P. C.},
title = {Littrow Configuration Tunable External Cavity Diode Laser with Fixed Direction Output Beam},
author = {Hawthorn, C. J. and Weber, K. P. and Scholten, R. E.},
year = {2001},
month = dec,
journal = {Review of Scientific Instruments},
volume = {72},
number = {12},
pages = {4477--4479},
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.}
title = {Nominal Values for Selected Solar and Planetary Quantities: {{IAU}} 2015 Resolution {{B3}}},
author = {Pr{\v s}a, Andrej and Harmanec, Petr and Torres, Guillermo and Mamajek, Eric and Asplund, Martin and Capitaine, Nicole and {Christensen-Dalsgaard}, J{\o}rgen and Depagne, {\'E}ric and Haberreiter, Margit and Hekker, Saskia},
year = {2016},
month = aug,
volume = {152},
number = {2},
eprint = {1605.09788},
eprinttype = {arxiv},
primaryclass = {astro-ph.SR},
pages = {41},
doi = {10.3847/0004-6256/152/2/41},
adsnote = {Provided by the SAO/NASA Astrophysics Data System},
keywords = {Astrophysics - Earth and Planetary Astrophysics,Astrophysics - Instrumentation and Methods for Astrophysics,Astrophysics - Solar and Stellar Astrophysics,planets and satellites: fundamental parameters,standards,stars: fundamental parameters,stars: general,Sun: fundamental parameters}
}
@article{samuel1959,
title = {Some Studies in Machine Learning Using the Game of Checkers},
author = {Samuel, A. L.},
year = {1959},
journal = {IBM Journal of Research and Development},
volume = {3},
number = {3},
pages = {211--229}
}
@article{schwarz2011,
title = {Swift X-Ray Observations of Classical Novae. {{II}}. {{The}} Super Soft Source Sample},
author = {Schwarz, Greg J. and Ness, Jan-Uwe and Osborne, J. P. and Page, K. L. and Evans, P. A. and Beardmore, A. P. and Walter, Frederick M. and Helton, L. Andrew and Woodward, Charles E. and Bode, Mike and Starrfield, Sumner and Drake, Jeremy J.},
keywords = {Astrophysics - High Energy Astrophysical Phenomena,Astrophysics - Solar and Stellar Astrophysics,cataclysmic variables,novae,ultraviolet: stars,X-rays: stars}
}
@article{vogt2014,
title = {Galaxy Emission Line Classification Using Three-Dimensional Line Ratio Diagrams},
author = {Vogt, Fr{\'e}d{\'e}ric P. A. and Dopita, Michael A. and Kewley, Lisa J. and Sutherland, Ralph S. and Scharw{\"a}chter, Julia and Basurah, Hassan M. and Ali, Alaa and Amer, Morsi A.},
year = {2014},
month = oct,
volume = {793},
number = {2},
eprint = {1406.5186},
eprinttype = {arxiv},
primaryclass = {astro-ph.GA},
pages = {127},
doi = {10.1088/0004-637X/793/2/127},
adsnote = {Provided by the SAO/NASA Astrophysics Data System},
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.},
title = {Can't Use with {{Arabic}} Text (Packages) {$\cdot$} {{Issue}} \#189 {$\cdot$} Borisveytsman/Acmart},
journal = {GitHub},
abstract = {Dear, I am trying to write a journal paper in English that includes some Arabic text. However, the compilations fail every time. I tried the arabtext and arabxetex packages with pdflatex, xelatex, ...},
