Optical long baseline intensity interferometry: prospects for stellar physics

被引:0
|
作者
Jean-Pierre Rivet
Farrokh Vakili
Olivier Lai
David Vernet
Mathilde Fouché
William Guerin
Guillaume Labeyrie
Robin Kaiser
机构
[1] Université Côte d’Azur,Laboratoire Lagrange
[2] Observatoire de la Côte d’Azur,UMS Galilée
[3] CNRS,Institut de Physique de Nice
[4] Observatoire de la Côte d’Azur,undefined
[5] CNRS,undefined
[6] Université Côte d’Azur,undefined
[7] CNRS,undefined
来源
Experimental Astronomy | 2018年 / 46卷
关键词
Temporal and spatial photon bunching; Micro-arc-second interferometry; In the optical wavelengths;
D O I
暂无
中图分类号
学科分类号
摘要
More than sixty years after the first intensity correlation experiments by Hanbury Brown and Twiss, there is renewed interest for intensity interferometry techniques for high angular resolution studies of celestial sources. We report on a successful attempt to measure the bunching peak in the intensity correlation function for bright stellar sources with 1 meter telescopes (I2C project). We propose further improvements of our preliminary experiments of spatial interferometry between two 1 m telescopes, and discuss the possibility to export our method to existing large arrays of telescopes.
引用
收藏
页码:531 / 542
页数:11
相关论文
共 50 条
  • [1] Optical long baseline intensity interferometry: prospects for stellar physics
    Rivet, Jean-Pierre
    Vakili, Farrokh
    Lai, Olivier
    Vernet, David
    Fouche, Mathilde
    Guerin, William
    Labeyrie, Guillaume
    Kaiser, Robin
    [J]. EXPERIMENTAL ASTRONOMY, 2018, 46 (03) : 531 - 542
  • [2] Modelling stellar rotation for optical long baseline interferometry
    de Souza, AD
    Zorec, J
    Jankov, S
    Vakili, F
    Abe, L
    [J]. STELLAR ROTATION, 2004, (215): : 187 - 188
  • [3] Prospects for wireless optical intensity interferometry with the Southern Connecticut stellar interferometer
    Horch, Elliott P.
    Weiss, Samuel A.
    Rupert, Justin D.
    LaRue, Ryan
    Peronio, Pietro
    Rech, Ivan
    Gulinatti, Angelo
    [J]. OPTICAL AND INFRARED INTERFEROMETRY AND IMAGING VI, 2018, 10701
  • [4] Stellar intensity interferometry: Prospects for sub-milliarcsecond optical imaging
    Dravins, Dainis
    LeBohec, Stephan
    Jensen, Hannes
    Nunez, Paul D.
    [J]. NEW ASTRONOMY REVIEWS, 2012, 56 (05) : 143 - 167
  • [5] Limits and prospects for long-baseline optical fiber interferometry
    Hilweg, Christopher
    Shadmany, Danial
    Walther, Philip
    Mavalvala, Nergis
    Sudhir, Vivishek
    [J]. OPTICA, 2022, 9 (11): : 1238 - 1252
  • [6] Alignment of optical delay lines for long-baseline stellar interferometry
    Germain, ME
    [J]. JOURNAL OF THE OPTICAL SOCIETY OF AMERICA A-OPTICS IMAGE SCIENCE AND VISION, 2002, 19 (01): : 81 - 90
  • [7] Stellar intensity interferometry: Experimental steps toward long-baseline observations
    LeBohec, Stephan
    Adams, Ben
    Bond, Isobel
    Bradbury, Stella
    Dravins, Dainis
    Jensen, Hannes
    Kieda, David B.
    Kress, Derrick
    Munford, Edward
    Nunez, Paul D.
    Price, Ryan
    Ribak, Erez
    Rose, Joachim
    Simpson, Harold
    Smith, Jeremy
    [J]. OPTICAL AND INFRARED INTERFEROMETRY II, 2010, 7734
  • [8] A catalog of reference stars for long baseline stellar interferometry
    Bordé, P
    du Foresto, VC
    Chagnon, G
    Perrin, G
    [J]. INTERFEROMETRY FOR OPTICAL ASTRONOMY II, PTS 1 AND 2, 2003, 4838 : 538 - 545
  • [9] Stellar radii from long-baseline interferometry
    Kervella, Pierre
    [J]. ART OF MODELLING STARS IN THE 21ST CENTURY, 2008, (252): : 405 - 411
  • [10] Probing Stellar Photospheres with Long-Baseline Interferometry
    Aufdenberg, Jason P.
    [J]. RESOLVING THE FUTURE OF ASTRONOMY WITH LONG-BASELINE INTERFEROMETRY, 2014, 487 : 35 - 48
12345