L. Slodička
University of Innsbruck
44 Papers
110 Citations
L. Slodička is an academic researcher from University of Innsbruck. The author has contributed to research in topics: Photon & Quantum entanglement. The author has an hindex of 13, co-authored 42 publications.
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Papers
Atom-atom entanglement by single-photon detection.
L. Slodička,Gabriel Hétet,N. Röck,Philipp Schindler,Markus Hennrich,Rainer Blatt,Rainer Blatt +6 more
TL;DR: A scheme for entangling distant atoms is realized, based on quantum interference and detection of a single photon scattered from two effectively one meter distant laser cooled and trapped atomic ions, with high rate and with a fidelity limited mostly by atomic motion.
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Intensity-Field Correlation of Single-Atom Resonance Fluorescence
Sebastian Gerber,D. Rotter,L. Slodička,Jürgen Eschner,Howard J. Carmichael,Rainer Blatt,Rainer Blatt +6 more
TL;DR: Measurements of an intensity-field correlation function of the resonance fluorescence of a single trapped 138Ba+ ion provide a direct measurement of the field of the radiating dipole of asingle atom and exhibits its strong nonclassical behavior.
Entanglement-Enhanced Radio-Frequency Field Detection and Waveform Sensing.
F. Martin Ciurana,Giorgio Colangelo,L. Slodička,Robert J. Sewell,Morgan W. Mitchell,Morgan W. Mitchell +5 more
TL;DR: A new technique for detecting the amplitude of arbitrarily chosen components of radio-frequency waveforms based on stroboscopic backaction evading measurements and quantum nondemolition measurements to detect waveform components with magnetic sensitivity beyond the standard quantum limit is demonstrated.
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Pure single photons from a trapped atom source
Daniel B. Higginbottom,Daniel B. Higginbottom,L. Slodička,Gabriel Araneda,Lukáš Lachman,Radim Filip,Markus Hennrich,Rainer Blatt,Rainer Blatt +8 more
TL;DR: In this article, a tunable, on-demand source of single photons using a single ion trapped at the common focus of high numerical aperture lenses was realized, which produces single-photon pulses at a rate of 200 kHz with g$^2(0) = (1.9 \pm 0.2)
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Deterministic nonclassicality for quantum-mechanical oscillators in thermal states
TL;DR: In this paper, the authors show that nonclassical states of a quantum harmonic oscillators initially in thermal equilibrium states can be deterministically created by coupling it to a single two level system.
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