S
Stephan Schiller
Researcher at University of Düsseldorf
Publications - 284
Citations - 10420
Stephan Schiller is an academic researcher from University of Düsseldorf. The author has contributed to research in topics: Laser & Spectroscopy. The author has an hindex of 54, co-authored 280 publications receiving 9409 citations. Previous affiliations of Stephan Schiller include Stanford University & University of Konstanz.
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Journal ArticleDOI
Quantum State Reconstruction of the Single-Photon Fock State
TL;DR: The quantum state of optical pulses containing single photons is reconstructed using the method of phase-randomized pulsed optical homodyne tomography and shows a strong dip reaching classically impossible negative values around the origin of the phase space.
Journal ArticleDOI
Measurement of the quantum states of squeezed light
TL;DR: In this paper, the complete family of squeezed states of light (states that have less uncertainty in one observable than does the vacuum state) have been generated using an optical parametric amplifier, and their density matrices and Wigner functions have been reconstructed from measurements of the quantum statistics of their electric fields.
Journal ArticleDOI
Spectrometry with frequency combs.
TL;DR: The essence of the method is the use of two combs of slightly different mode spacing to achieve spectral resolution, which has advantages of speed, frequency resolution, sensitivity, absence of dispersive components, and high spatial resolution.
Journal ArticleDOI
AEDGE: Atomic experiment for dark matter and gravity exploration in space
Yousef Abou El-Neaj,Cristiano Alpigiani,Sana Amairi-Pyka,Henrique Araujo,Antun Balaž,Angelo Bassi,Lars Bathe-Peters,Baptiste Battelier,Aleksandar Belić,Elliot Bentine,Jose Bernabeu,Andrea Bertoldi,Robert Bingham,Robert Bingham,Diego Blas,Vasiliki Bolpasi,Kai Bongs,Sougato Bose,Philippe Bouyer,T. J. V. Bowcock,William B. Bowden,Oliver Buchmueller,Clare Burrage,Xavier Calmet,Benjamin Canuel,Laurentiu Ioan Caramete,Andrew Carroll,Giancarlo Cella,Vassilis Charmandaris,S. Chattopadhyay,S. Chattopadhyay,Xuzong Chen,Maria Luisa Chiofalo,J. P. Coleman,J. P. Cotter,Y. Cui,Andrei Derevianko,Albert De Roeck,Goran S. Djordjevic,P. J. Dornan,Michael Doser,Ioannis Drougkakis,Jacob Dunningham,Ioana Dutan,Sajan Easo,G. Elertas,John Ellis,John Ellis,John Ellis,Mai El Sawy,Mai El Sawy,Farida Fassi,D. Felea,Chen Hao Feng,R. L. Flack,Christopher J. Foot,Ivette Fuentes,Naceur Gaaloul,A. Gauguet,Remi Geiger,Valerie Gibson,Gian F. Giudice,J. Goldwin,O. A. Grachov,Peter W. Graham,Dario Grasso,Maurits van der Grinten,Mustafa Gündoğan,Martin G. Haehnelt,Tiffany Harte,Aurélien Hees,Richard Hobson,Jason M. Hogan,Bodil Holst,Michael Holynski,Mark A. Kasevich,Bradley J. Kavanagh,Wolf von Klitzing,Tim Kovachy,Benjamin Krikler,Markus Krutzik,Marek Lewicki,Marek Lewicki,Yu-Hung Lien,Miaoyuan Liu,Giuseppe Gaetano Luciano,Alain Magnon,Mohammed Mahmoud,Sudhir Malik,Christopher McCabe,J. W. Mitchell,Julia Pahl,Debapriya Pal,Saurabh Pandey,Dimitris G. Papazoglou,Mauro Paternostro,Bjoern Penning,Achim Peters,Marco Prevedelli,Vishnupriya Puthiya-Veettil,J. J. Quenby,Ernst M. Rasel,Sean Ravenhall,Jack Ringwood,Albert Roura,D. O. Sabulsky,M. Sameed,Ben Sauer,Stefan A. Schäffer,Stephan Schiller,Vladimir Schkolnik,Dennis Schlippert,Christian Schubert,Haifa Rejeb Sfar,Armin Shayeghi,Ian Shipsey,Carla Signorini,Yeshpal Singh,Marcelle Soares-Santos,Fiodor Sorrentino,T. J. Sumner,Konstantinos Tassis,S. Tentindo,Guglielmo M. Tino,Guglielmo M. Tino,Jonathan N. Tinsley,James Unwin,Tristan Valenzuela,Georgios Vasilakis,Ville Vaskonen,Ville Vaskonen,Christian Vogt,Alex Webber-Date,André Wenzlawski,Patrick Windpassinger,Marian Woltmann,Efe Yazgan,Ming Sheng Zhan,Xinhao Zou,Jure Zupan +139 more
TL;DR: The Atomic Experiment for Dark Matter and Gravity Exploration (AEDGE) as mentioned in this paper is a space experiment using cold atoms to search for ultra-light dark matter, and to detect gravitational waves in the frequency range between the most sensitive ranges of LISA and the terrestrial LIGO/Virgo/KAGRA/INDIGO experiments.
Journal ArticleDOI
Modern Michelson-Morley experiment using cryogenic optical resonators.
Holger Müller,Holger Müller,Sven Herrmann,Sven Herrmann,Claus Braxmaier,Stephan Schiller,Achim Peters +6 more
TL;DR: A new test of Lorentz invariance is performed by comparing the resonance frequencies of two orthogonal cryogenic optical resonators subject to Earth's rotation over approximately 1 yr, improving the best previous result by about 2 orders of magnitude.