Quantum dynamics of a single, mobile spin impurity

Takeshi Fukuhara; Adrian Kantian; Manuel Endres; Marc Cheneau; Peter Schauß; Sebastian Hild; David Bellem; Ulrich Schollwöck; Thierry Giamarchi; Christian Gross; Immanuel Bloch; Immanuel Bloch; Stefan Kuhr; Stefan Kuhr

doi:10.1364/CLEO_QELS.2013.QW3C.2

CLEO: 2013
OSA Technical Digest (online) (Optica Publishing Group, 2013),
paper QW3C.2
•https://doi.org/10.1364/CLEO_QELS.2013.QW3C.2

Quantum dynamics of a single, mobile spin impurity

Takeshi Fukuhara, Adrian Kantian, Manuel Endres, Marc Cheneau, Peter Schauß, Sebastian Hild, David Bellem, Ulrich Schollwöck, Thierry Giamarchi, Christian Gross, Immanuel Bloch, and Stefan Kuhr

CLEO: QELS_Fundamental Science 2013

San Jose, California United States
9–14 June 2013
ISBN: 978-1-55752-972-5

From the session
Quantum Simulators II (QW3C)

Not Accessible

Your library or personal account may give you access

Get PDF
Email
Share
Get Citation
Copy Citation Text
T. Fukuhara, A. Kantian, M. Endres, M. Cheneau, P. Schauß, S. Hild, D. Bellem, U. Schollwöck, T. Giamarchi, C. Gross, I. Bloch, and S. Kuhr, "Quantum dynamics of a single, mobile spin impurity," in CLEO: 2013, OSA Technical Digest (online) (Optica Publishing Group, 2013), paper QW3C.2.

Export Citation
- BibTex
- Endnote (RIS)
- HTML
- Plain Text
Citation alert
Save article

Abstract

One of the elementary processes in quantum magnetism is the propagation of spin excitations. Here we study the quantum dynamics of a deterministically created spin-impurity atom, as it propagates in a one-dimensional lattice system [1]. We probe the spatial probability distribution of the impurity at different times using single-site-resolved imaging of bosonic atoms in an optical lattice. In the Mott-insulating regime, the quantum-coherent propagation of a magnetic excitation in the Heisenberg model can be observed using a post-selection technique. Extending the study to the superfluid regime of the bath, we quantitatively determine how the bath affects the motion of the impurity, showing evidence of polaronic behaviour. The experimental data agree with theoretical predictions, allowing us to determine the effect of temperature on the impurity motion. Our results provide a new approach to studying quantum magnetism, mobile impurities in quantum fluids and polarons in lattice systems.

PDF Article

More Like This

Impurities in Ultracold Fermi Gases

Han Pu
LW1H.2 Laser Science (LS) 2013

Towards Quantum Simulation with Neutral Atoms in Optical Lattices

Carl J. Williams, Kaushik Mitra, and Carlos A. R. Sa de Melo
IWC4 International Conference on Quantum Information (QIM) 2007

Quantum control of spin-correlations in ultracold lattice gases

P. Hauke, R. J. Sewell, M. W. Mitchell, and M. Lewenstein
IA_P_1 International Quantum Electronics Conference (IQEC) 2013

Previous Article Next Article