R
Rainer Blatt
Researcher at University of Innsbruck
Publications - 434
Citations - 39148
Rainer Blatt is an academic researcher from University of Innsbruck. The author has contributed to research in topics: Ion & Qubit. The author has an hindex of 86, co-authored 419 publications receiving 33415 citations. Previous affiliations of Rainer Blatt include University of Colorado Boulder & National Institute of Standards and Technology.
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Journal ArticleDOI
'Designer atoms' for quantum metrology.
Christian F. Roos,Christian F. Roos,M. Chwalla,Kihwan Kim,M. Riebe,Rainer Blatt,Rainer Blatt +6 more
TL;DR: This work uses a decoherence-free subspace with specifically designed entangled states to demonstrate precision spectroscopy of a pair of trapped Ca+ ions and gets the electric quadrupole moment, which is of use for frequency standard applications.
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A quantum information processor with trapped ions
Philipp Schindler,Daniel Nigg,Thomas Monz,Julio T. Barreiro,Esteban Martínez,Shannon X. Wang,Stephan Quint,Matthias F. Brandl,Volckmar Nebendahl,Christian F. Roos,M. Chwalla,M. Chwalla,Markus Hennrich,Rainer Blatt,Rainer Blatt +14 more
TL;DR: In this paper, a small-scale quantum information processor based on a string of 40Ca+ ions confined in a macroscopic linear Paul trap is presented, which includes non-coherent operations allowing us to realize arbitrary Markovian processes.
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Laser manipulation of atomic beam velocities: Demonstration of stopped atoms and velocity reversal.
TL;DR: Experience de ralentissement d'un faisceau d'atomes Na a des vitesses nulle ou negatives en utilisant le rayonnement d' un laser qui se propage en sens inverse et dont la frequence varie de facon precise par modulation electrooptique.
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Coupling a single atomic quantum bit to a high finesse optical cavity.
A.B. Mundt,A. Kreuter,Christoph Becher,Dietrich Leibfried,Jürgen Eschner,Ferdinand Schmidt-Kaler,Rainer Blatt +6 more
TL;DR: The quadrupole S(1/2)-D(5/2) optical transition of a single trapped Ca+ ion is coherently coupled to the standing wave field of a high finesse cavity and deterministic coupling of the cavity mode to the ion's vibrational state is achieved.
Journal ArticleDOI
Simulating Lattice Gauge Theories within Quantum Technologies
Mari Carmen Bañuls,Rainer Blatt,Rainer Blatt,Jacopo Catani,Jacopo Catani,Alessio Celi,Alessio Celi,J. I. Cirac,Marcello Dalmonte,Marcello Dalmonte,Leonardo Fallani,Leonardo Fallani,Karl Jansen,Maciej Lewenstein,Maciej Lewenstein,Simone Montangero,Simone Montangero,Christine A. Muschik,Benni Reznik,Enrique Rico,Enrique Rico,Luca Tagliacozzo,Karel Van Acoleyen,Frank Verstraete,Frank Verstraete,Uwe-Jens Wiese,Matthew Wingate,Jakub Zakrzewski,Peter Zoller +28 more
TL;DR: In this article, tensor network methods are applied to the study of lattice gauge theories together with some results on Abelian and non-Abelian lattice-gauge theories.