Effect of light assisted collisions on matter wave coherence in superradiant Bose-Einstein condensates

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Effect of light assisted collisions on matter wave coherence in superradiant Bose-Einstein condensates. / Kampel, Nir Shlomo; Griesmaier, Axel Rudolf; Steenstrup, Mads Peter Hornbak; Kaminski, Franziska; Polzik, Eugene Simon; Müller, Jörg Helge.

I: Physical Review Letters, Bind 108, Nr. 9, 27.02.2012, s. 090401.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Kampel, NS, Griesmaier, AR, Steenstrup, MPH, Kaminski, F, Polzik, ES & Müller, JH 2012, 'Effect of light assisted collisions on matter wave coherence in superradiant Bose-Einstein condensates', Physical Review Letters, bind 108, nr. 9, s. 090401. https://doi.org/10.1103/PhysRevLett.108.090401

APA

Kampel, N. S., Griesmaier, A. R., Steenstrup, M. P. H., Kaminski, F., Polzik, E. S., & Müller, J. H. (2012). Effect of light assisted collisions on matter wave coherence in superradiant Bose-Einstein condensates. Physical Review Letters, 108(9), 090401. https://doi.org/10.1103/PhysRevLett.108.090401

Vancouver

Kampel NS, Griesmaier AR, Steenstrup MPH, Kaminski F, Polzik ES, Müller JH. Effect of light assisted collisions on matter wave coherence in superradiant Bose-Einstein condensates. Physical Review Letters. 2012 feb. 27;108(9):090401. https://doi.org/10.1103/PhysRevLett.108.090401

Author

Kampel, Nir Shlomo ; Griesmaier, Axel Rudolf ; Steenstrup, Mads Peter Hornbak ; Kaminski, Franziska ; Polzik, Eugene Simon ; Müller, Jörg Helge. / Effect of light assisted collisions on matter wave coherence in superradiant Bose-Einstein condensates. I: Physical Review Letters. 2012 ; Bind 108, Nr. 9. s. 090401.

Bibtex

@article{da32b4e7978e4242ad5e3b0d49cb8e65,
title = "Effect of light assisted collisions on matter wave coherence in superradiant Bose-Einstein condensates",
abstract = "We investigate experimentally the effects of light assisted collisions on the coherence between momentum states in Bose-Einstein condensates. The onset of superradiant Rayleigh scattering serves as a sensitive monitor for matter-wave coherence. A subtle interplay of binary and collective effects leads to a profound asymmetry between the two sides of the atomic resonance and provides far bigger coherence loss rates for a condensate bathed in blue detuned light than previously estimated. We present a simplified quantitative model containing the essential physics to explain our experimental data and point at a new experimental route to study strongly coupled light matter systems",
author = "Kampel, {Nir Shlomo} and Griesmaier, {Axel Rudolf} and Steenstrup, {Mads Peter Hornbak} and Franziska Kaminski and Polzik, {Eugene Simon} and M{\"u}ller, {J{\"o}rg Helge}",
year = "2012",
month = feb,
day = "27",
doi = "10.1103/PhysRevLett.108.090401",
language = "English",
volume = "108",
pages = "090401",
journal = "Physical Review Letters",
issn = "0031-9007",
publisher = "American Physical Society",
number = "9",

}

RIS

TY - JOUR

T1 - Effect of light assisted collisions on matter wave coherence in superradiant Bose-Einstein condensates

AU - Kampel, Nir Shlomo

AU - Griesmaier, Axel Rudolf

AU - Steenstrup, Mads Peter Hornbak

AU - Kaminski, Franziska

AU - Polzik, Eugene Simon

AU - Müller, Jörg Helge

PY - 2012/2/27

Y1 - 2012/2/27

N2 - We investigate experimentally the effects of light assisted collisions on the coherence between momentum states in Bose-Einstein condensates. The onset of superradiant Rayleigh scattering serves as a sensitive monitor for matter-wave coherence. A subtle interplay of binary and collective effects leads to a profound asymmetry between the two sides of the atomic resonance and provides far bigger coherence loss rates for a condensate bathed in blue detuned light than previously estimated. We present a simplified quantitative model containing the essential physics to explain our experimental data and point at a new experimental route to study strongly coupled light matter systems

AB - We investigate experimentally the effects of light assisted collisions on the coherence between momentum states in Bose-Einstein condensates. The onset of superradiant Rayleigh scattering serves as a sensitive monitor for matter-wave coherence. A subtle interplay of binary and collective effects leads to a profound asymmetry between the two sides of the atomic resonance and provides far bigger coherence loss rates for a condensate bathed in blue detuned light than previously estimated. We present a simplified quantitative model containing the essential physics to explain our experimental data and point at a new experimental route to study strongly coupled light matter systems

U2 - 10.1103/PhysRevLett.108.090401

DO - 10.1103/PhysRevLett.108.090401

M3 - Journal article

C2 - 22463618

VL - 108

SP - 090401

JO - Physical Review Letters

JF - Physical Review Letters

SN - 0031-9007

IS - 9

ER -

ID: 40726783