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References

Published online by Cambridge University Press:  05 January 2013

Immo Appenzeller
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Universität Heidelberg
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References

Appenzeller, I. 1989. Detectors and Receivers. Pages 299–350 of: Appenzeller, I., Habing, H. J., and Lená, P. (eds.), Evolution of Galaxies, Astronomical Observations. Springer Lecture Notes in Physics, Vol. 333.CrossRefGoogle Scholar
Appenzeller, I. 2009. High-Redshift Galaxies. Springer.CrossRefGoogle Scholar
Appenzeller, I., et al. 1998. The ESO Messenger, 94, 1.
Araujo-Hauck, C., et al. 2007. The ESO Messenger, 129, 25.
Arnaud, K., Smith, R., and Siemiginowska, A. 2011. Handbook of X-Ray Astronomy. Cambridge University Press.CrossRefGoogle Scholar
Atwood, W. B., et al. 2009. ApJ, 697, 1071.Google Scholar
Avila, G. and Singh, P. 2008. SPIE, 7018, 157.Google Scholar
Bacon, R., et al. 1995. A & AS, 113, 347.
Bahner, K. and Solf, J. 1972. Design Study of the Coudé Spectrographs for the 2.2-m Telescopes of the MPI for Astronomy. In: Laustsen, S. and Reiz, A. (eds.), Proc. ESO/CERN Conference on Auxiliary Instrumentation for Large Telescopes (ESO Conference Proceedings), p. 247.Google Scholar
Baranne, A. and Duchesne, M. 1972. Montage à pupille blanche pour caméra électronique. In: Laustsen, S. and Reiz, A. (eds.), Proc. ESO/CERN Conference on Auxiliary Instrumentation for Large Telescopes (ESO Conference Proceedings), p. 241.Google Scholar
Barden, S. C., Arns, J. A., and Colburn, W. S. 2000. PASP, 112, 809.CrossRef
Barnes, S. I. and MacQueen, P. J. 2010. SPIE, 7735, 204.Google Scholar
Barnstedt, J., et al. 1999. A & AS, 134, 561.
Bass, M., ed. 1995. Handbook of Optics, 2nd ed., Vols. 1–4. McGraw-Hill.
Baudry, A. 2011. ALMA Newsletter, 7, 18.
Bazarghan, M. and Gupta, R. 2008. Astrophys. & Space Sciences, 315, 201.CrossRef
Bean, J. L., et al. 2010. ApJ, 713, 410.Google Scholar
Becker, W. 2009. X-Ray Emission from Pulsars and Neutron Stars. Chapter 6 of: Becker, W. (ed.), Neutron Stars and Pulsars. Springer.CrossRefGoogle Scholar
Beletic, J. E., Beletic, J.W., and Amico, P., eds. 2006. Scientific Detectors for Astronomy 2005. Springer.CrossRef
Benford, D. J., et al. 2003. SPIE, 4857, 105.Google Scholar
Bintley, D., et al. 2010. SPIE, 7741, 2.Google Scholar
Bland-Hawthorn, J., et al. 2010. SPIE, 7735, 22.Google Scholar
Bock, J. J., et al. 2009. Superconduction Detector Arrays for Far-Infrared and mm-Wave Astrophysics. The Astronomy and Astrophysics Decadal Report. Technology Development Paper No. 45 (see ADS).Google Scholar
Born, M. and Wolf, E. 1987. Principles of Optics. Pergamon Press.Google Scholar
Bowen, I. S. 1938. ApJ, 88, 113.CrossRef
Bradford, C. M., et al. 2010. SPIE, 7731, 2.Google Scholar
Brandt, W. N. and Hasinger, G. 2005. An. Rev. Astr. Astrophys., 43, 827.CrossRef
Burney, J. A. 2007. Transition-edge sensor imaging arrays for astrophysical applications. PhD thesis, Stanford University, Palo Alto, CA.
Burnight, T. R., et al. 1949. Phys. Rev., 76, 165.
Campbell, R. D. and Thompson, D. J. 2006. The Effects of Charge Persistence in Aladdine III InSb Detectors on Scientific Observations. In: Beletic, J. E., Beletic, J. W., and Amico, P., eds., Scientific Detectors for Astronomy 2005. Springer.Google Scholar
Canonica, M., et al. 2010. SPIE, 7739, 151.Google Scholar
Carleton, N., ed. 1976. Methods of Experimental Physics, 12, Part 1, Chapters 10–12. Academic Press.
Clénet, Y., et al. 2002. PASP, 114, 563.CrossRef
Colpi, M., et al., eds. 2009. Physics of Relativistic Objects in Compact Binaries. Springer.CrossRef
Cottam, J., Paerels, F., and Mendez, M. 2002. Nature, 420, 51.Google Scholar
Cox, A. N. 2000. Allen's Astrophysical Quantities. Springer.Google Scholar
Craig, N., et al. 1997. ApJS, 113, 131.CrossRef
Crowther, P. A. 2007. An. Rev. Astr. Astrophys., 45, 177.CrossRef
Cui, X., et al. 2008. SPIE, 7012, 3.Google Scholar
Cvetojevic, N., et al. 2012. Optics Express, 20, 2062.CrossRef
de Graauw, Th., et al. 2010. A & A, 518, L6.Google Scholar
Dekker, H., D'Odorico, S., and Fontana, A. 1994. The ESO Messenger, 76, 16.
Dekker, H., et al. 2000. SPIE, 4008, 534.Google Scholar
Dekker, H., et al. 2003. SPIE, 4842, 139.Google Scholar
D'Odorico, S., et al. 2010. The ESO Messenger, 140, 17.
Dopita, M.A. and Sutherland, R. S. 2003. Astrophysics of the Diffuse Universe. Springer.CrossRefGoogle Scholar
Eisenhauer, F., et al. 2003. The ESO Messenger, 113, 17.
Euchner, F., et al. 2006. A & A, 451, 671.Google Scholar
Ewen, H. I. and Purcell, E. M. 1951. Nature, 168, 256.CrossRef
Falgarone, E., et al. 2008. A & A, 487, 247.Google Scholar
Fellgett, P. B. 1949. J. Opt. Soc. Am., 39, 970.CrossRef
Frank, J., King, A., and Raine, D. 2003. Accretion Power in Astrophysics, 3rd ed. Cambridge University Press.Google Scholar
Frank, S., Appenzeller, I., Noll, S., and Stahl, O. 2003. A & A, 407, 473.Google Scholar
Fraunhofer, J. 1817. Denkschriften der Münchener Akademie der Wissenschaften, 5, 193.
Friedman, H., Byram, E. T., and Chubb, T. A. 1966. Science, 153, 1527.CrossRefPubMed
Friedman, H., Lichtman, S. W., and Byram, E. T. 1951. Phys. Rev., 83, 1025.CrossRef
Froning, C., et al. 2006. SPIE, 6269, 61.Google Scholar
Giacconi, R. 2003. Rev. Modern Physics, 75, 995.CrossRef
Giacconi, R., Gursky, H., Paolini, F., and Rossi, B. B. 1962. Phys. Rev. Lett., 9, 439.CrossRef
Glass, I. S. 1999. Handbook of Infrared Astronomy. Cambridge University Press.CrossRefGoogle Scholar
Glasse, A. C., Atad, E., and Montgomery, D. 1993. ASPC, 41, 401.
Gom, B. and Naylor, D. 2010. SPIE, 7741, 67.Google Scholar
Grant, E. 1974. A Source Book of Medieval Science. Harvard University Press, p. 864.Google Scholar
Gray, R.O. and Corbally, C. J. 2009. Stellar Spectral Classification. Princeton University Press.Google Scholar
Grewing, M., et al. 1991. The ORFEUS Mission. In: Malina, R. F. and Bowyer, S., eds. Extreme Ultraviolet Astronomy. Pergamon Press, p. 437.CrossRefGoogle Scholar
Griffin, M., et al. 2010. A & A, 518, L3.Google ScholarPubMed
Hamuy, M., et al. 1992. PASP, 104, 533.CrossRef
Hamuy, M., et al. 1994. PASP, 106, 566.CrossRef
Hartigan, P., Edwards, S., and Pierson, R. 2004. ApJ, 609, 261.Google Scholar
Hatzes, A. and Cochran, W. 1992. In: Ulrich, M. (ed.), Proc. ESO Workshop on Highresolution Spectroscopy with the VLT. ESO Conference Proceedings Vol. 40, 275.Google Scholar
Hearnshaw, J. B. 1986. The Analysis of Starlight. Cambridge University Press.Google Scholar
Hearnshaw, J. B. 2009. Astronomical Spectrographs and Their History. Cambridge University Press.CrossRefGoogle Scholar
Hernandez, O., et al. 2008. PASP, 120, 665.CrossRef
Herrera-Martinez, G., et al. 2009. Revista Mex. AA (Serie de Conferencias), 37, 156.
Heyminck, S., et al. 2008. SPIE, 7014, 33.Google Scholar
Hill, G. J. and MacQueen, I. J. 2002. SPIE, 4836, 306.Google Scholar
Hill, G. J., Wolf, M. J., Tufts, J. R., and Smith, E. C. 2003. SPIE, 4842, 1.Google Scholar
Hiltner, W. A. 1964. Astronomical Techniques. Chicago University Press.Google Scholar
Hinton, J. A. and Hofmann, W. 2009. An. Rev. A & A, 47, 523.
Homes, C. C., et al. 2007. Applied Optics, 46, 7884.CrossRef
Horne, K. 1986. PASP, 98, 609.CrossRef
Houck, J. R., et al. 2004. ApJS, 154, 18.CrossRef
Howell, S. B. 2006. Handbook of CCD Astronomy, 2nd ed. Cambridge University Press.CrossRefGoogle Scholar
Ichikawa, T., et al. 2006. SPIE, 6269, 38.Google Scholar
Iwert, O. and Delabre, B. 2010. SPIE, 7742, 60.Google Scholar
Jack, D., Hauschildt, P. H., and Baron, E. 2009. A & A, 502, 1043.Google Scholar
Johns-Krull, C. M. 2007. Proc. IAU Symposium, 243, 31.CrossRef
Justtanont, K., et al. 2012. A & A, 537, 144.Google Scholar
Karasik, B. S., et al. 2010. SPIE, 7741, 34.Google Scholar
Kashikawa, N., et al. 2002. PASJ, 54, 819.CrossRef
Kaufer, A. 1998. ASP Conf. Ser., 152, 337.
Kaufer, A. and Pasquini, L. 1998. SPIE, 3355, 844.Google Scholar
Kaufer, A., et al. 1999. The ESO Messenger, 95, 8.
Kawada, M., et al. 2008. PASJ, 60, 389.CrossRef
Kayser, H. 1900. Handbuch der Spektroskopie. Verlag S. Hirzel.Google Scholar
Kirkpatrick, J. D. 2005. An. Rev. Astr. Astrophys., 43, 195.CrossRef
Kitchin, C. R. 2008. Astronomical Techniques. CRC Press.Google Scholar
Klein, B., et al. 2006a. SPIE, 6275, 33.Google Scholar
Klein, B., et al. 2006b. A & A, 454, L29.Google Scholar
Klein, R., et al. 2010. SPIE, 7735, 6.Google Scholar
Koenigsberger, G., et al. 2011. IAU Symp., 272, 511.
Köppen, J. 2010. Sterne und Weltraum, 4/2010, 88.
Kraushaar, W. L., et al. 1965. ApJ, 141, 845.CrossRef
Krautter, J., Appenzeller, I., and Jankovics, I. 1990. A & A, 236, 416.
Kurucz, R. L. 1970. SAO Special Report, 309, 1.
Lawrence, J., et al. 2010. SPIE, 7739, 144.Google Scholar
Le Fèvre, O., et al. 2002. The ESO Messenger, 109, 21.
Léna, P, Lebrun, F., and Mignard, F. 1998. Observational Astrophysics. Springer.CrossRefGoogle Scholar
Leon-Saval, S. G., Argyros, A., and Bland-Hawthorn, J. 2010. Optics Express, 18, 8430.CrossRef
Lequeux, J. 2005. The Interstellar Medium. Springer.Google Scholar
Lester, J. B. and Neilson, H. R. 2008. A & A, 491, 633.Google Scholar
Li, M. J., et al. 2010. SPIE, 7594, 20.Google Scholar
Littrow, O. 1863. Berichte der Sternwarte Wien, 47, 26.
Longair, M. S. 2008. Galaxy Formation, 2nd ed. Springer Verlag, Chapters 5–8.Google Scholar
Mack, J. E., et al. 1963. Applied Optics, 2, 873.CrossRef
Malacara, D. and Thompson, B. J., eds. 2001. Handbook of Optical Engineering. Marcel Dekker.
Martin, D. D. E. and Verhoeve, P. 2010. ISSIR, 9, 441.
Mayor, M., et al. 2003. The ESO Messenger, 114, 20.
Mazin, B. A., et al. 2010. SPIE, 7735, 42.Google Scholar
McLean, I. S., et al. 2010. SPIE, 7735, 12.Google Scholar
Meeks, M. L., ed. 1976. Methods of Experimental Physics, 12, Part 3 (Radio Observations). Academic Press.
Menten, K. M., et al. 2008. A & A, 477, 185.Google Scholar
Morgan, W. W., Keenan, P. C., and Kellman, E. 1943. An Atlas of Stellar Spectra, with an Outline of a Spectral Classification. University of Chicago Press.Google Scholar
Morgan, W. W. and Mayall, N. U. 1957. Publ. Astr. Soc. Pacific, 69, 291.CrossRef
Morgan, W. W., Abt, H. A. P., and Tapscot, J. W. 1978. Revised MK Atlas for Stars Earlier than the Sun. University of Chicago and Kitt Peak National Observatory.Google Scholar
Morton, D. C. 1991. ApJS, 77, 119.CrossRef
Nakagawa, T. 2010. SPIE, 7731, 18.Google Scholar
Naylor, D. A., et al. 2010. SPIE, 7731, 29.Google Scholar
Ness, J.-U., et al. 2002. A & A, 394, 911.Google Scholar
Newton, I. 1740. Optice. Bousquet et Sociorum, Lausanne/Geneva.Google Scholar
Noll, S. 2002. The FORS Deep Field Spectroscopic Survey. Ph.D. Thesis, University of Heidelberg, Germany.
Oke, J. B. 1990. AJ, 99, 1621.CrossRef
Oke, J. B., et al. 1995. PASP, 107, 375.CrossRef
Osmer, P., et al. 2000. SPIE, 4008, 40.Google Scholar
Osterbrock, D. E., et al. 1996. PASP, 108, 277.CrossRef
Osterbrock, D. E., et al. 1997. PASP, 109, 614.CrossRef
Paerels, F. B. S. and Kahn, S. M. 2003. An. Rev. Astr. Astrophys., 41, 291.CrossRef
Palmer, Ch. and Loewen, E. 2005. Diffraction Grating Handbook, 6th ed. Newport, Irvine, CA.Google Scholar
Pasquali, A., et al. 2006. PASP, 118, 270.CrossRef
Pepe, M., et al. 2004. A & A, 423, 385.Google Scholar
Perruchot, S., et al. 2008. SPIE, 7014, 17.Google Scholar
Poglitsch, A., et al. 2008. SPIE, 7010, 3.Google Scholar
Pottschmidt, K., et al. 2012. A Suzaku View of Cyclotron Line Sources and Candidates. AIPC, 1427, 60.Google Scholar
Pradhan, A. K. and Nahar, S. N. 2011. Atomic Astrophysics and Spectroscopy. Cambridge University Press.CrossRefGoogle Scholar
Pravdo, S. H., et al. 1976. ApJ, 206, L41.CrossRef
Quirrenbach, A., et al. 2010. SPIE, 7735, 37.Google Scholar
Richter, M. J., et al. 2003. SPIE, 4857, 37.Google Scholar
Roddier, F. 1999. Adaptive Optics in Astronomy. Cambridge University Press.CrossRefGoogle Scholar
Romani, R. W., et al. 2003. ASPC, 291, 339.
Rowland, H. A. 1882. The Observatory, 5, 224.
Ruder, H.,Wunner, G.,Herold, H., and Geyer, F. 1994. Atoms in Strong Magnetic Fields. Springer.CrossRefGoogle Scholar
Sanchez, Almeida, et al. 2010. ApJ, 714, 487.Google Scholar
Schieder, R. T., et al. 2003. SPIE, 4855, 290.Google Scholar
Schlaerth, J. A., et al. 2010. SPIE, 7741, 4.Google Scholar
Seifert, W., et al. 2003. SPIE, 4841, 962.Google Scholar
Seifert, W., et al. 2010. SPIE, 7735, 256.Google Scholar
Sharples, R., et al. 2010. The ESO Messenger, 139, 24.
Shaw, M. D., et al. 2009. Phys. Rev.B, 79, 144511.
Simard, L., et al. 2010. SPIE, 7735, 70.Google Scholar
Sion, M., et al., 1983. ApJ, 269, 253.CrossRef
Siringo, G., et al. 2009. A & A, 497, 945.Google Scholar
Sonnabend, G., Wirtz, D., Vetterle, V., and Schieder, R. 2005. A & A, 435, 1181.Google Scholar
Stacey, G. J., et al. 2004. SPIE, 5498, 323.Google Scholar
Stahl, O., Kaufer, A., and Tubbesing, S. 1999. ASPC, 188, 331.
Stetson, P. B. 1989. Highlights of Astronomy, 8, 635.CrossRef
Stumpff, P. 1980. A & AS, 41, 1.
Takahashi, T., et al. 2010. SPIE, 7732, 2.Google Scholar
Tanaka, Y., et al. 1994. PASJ, 46, L37.
Tennyson, J. 2011. Astronomical Spectroscopy: An Introduction to Atomic and Molecular Physics of Astronomical Spectra, 2nd ed. World Scientific Publ. Co.CrossRefGoogle Scholar
Tong, C.-Y. E., et al. 2006. SPIE, 6373, 19.Google Scholar
Trümper, J., et al. 1978. ApJ, 219, L105.CrossRef
van de Hulst, H. C., Muller, C. A., and Oort, J. H. 1954. Bull. Astron. Inst. Netherlands, 12, 117.
Verhoeve, P., Martin, D. D. E., and Venn, R. 2010. SPIE, 7742, 16.Google Scholar
Villanueva, G. and Hartogh, P. 2004. Experimental Astronomy, 18, 77.CrossRef
Vogt, S. S., et al. 1994. SPIE, 2198, 362.Google Scholar
Völk, H. J. and Bernlöhr, K. 2009. Experimental Astronomy, 25, 173.CrossRef
Walborn, N. R., et al. 2002. Astr. J, 123, 2754.CrossRef
Walraven, Th. and Walraven, J. H. 1972. Some features of the Leiden radial velocity instrument. In: Laustsen, S. and Reiz, A. (eds.), Proc. ESO/CERN Conference on auxiliary instrumentation for large telescopes, ESO Conference Proceedings, p. 175.Google Scholar
Williams, D. 1976. Methods of Experimental Physics, 13, Part A.
Wilson, T. L., Rohlfs, K., and Hüttemeister, S. 2009. Tools of Radio Astronomy, 5th ed. Springer.Google Scholar
Wishnow, E. H., et al. 2010. SPIE, 7734, 8.Google Scholar
York, D. G., et al. 2000. Astr. J, 120, 1579.CrossRef

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  • References
  • Immo Appenzeller
  • Book: Introduction to Astronomical Spectroscopy
  • Online publication: 05 January 2013
  • Chapter DOI: https://doi.org/10.1017/CBO9781139059503.013
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  • References
  • Immo Appenzeller
  • Book: Introduction to Astronomical Spectroscopy
  • Online publication: 05 January 2013
  • Chapter DOI: https://doi.org/10.1017/CBO9781139059503.013
Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • References
  • Immo Appenzeller
  • Book: Introduction to Astronomical Spectroscopy
  • Online publication: 05 January 2013
  • Chapter DOI: https://doi.org/10.1017/CBO9781139059503.013
Available formats
×