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| Title: | Momentum-resolved and correlation spectroscopy using quantum probes |
| Author(s): | Cosco, Francesco ; Borrelli, Massimo ; Plastina, Francesco ; Maniscalco, Sabrina |
| Date: | 2017-05-19 |
| Language: | en |
| Pages: | 10 1-10 |
| Department: | University of Turku Instituto Nationale di Fisica Nucleare Department of Applied Physics |
| Series: | PHYSICAL REVIEW A, Volume 95, issue 5 |
| ISSN: | 2469-9926 1094-1622 |
| DOI-number: | 10.1103/PhysRevA.95.053620 |
| Keywords: | ATOMIC MOTT INSULATOR, NARROW ENERGY-BANDS, ELECTRON CORRELATIONS, ULTRACOLD GASES, OPTICAL LATTICE, TRANSITION, SYSTEMS |
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Cosco , F , Borrelli , M , Plastina , F & Maniscalco , S 2017 , ' Momentum-resolved and correlation spectroscopy using quantum probes ' , Physical Review A , vol. 95 , no. 5 , 053620 , pp. 1-10 . https://doi.org/10.1103/PhysRevA.95.053620 |
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Abstract:We address some key conditions under which many-body lattice models, intended mainly as simulated condensed-matter systems, can be investigated via immersed, fully controllable quantum objects, namely quantum probes. First, we present a protocol that, for a certain class of many-body systems, allows for full momentum-resolved spectroscopy using one single probe. Furthermore, we demonstrate how one can extract the two-point correlations using two entangled probes. We apply our theoretical proposal to two well-known exactly solvable lattice models, a one-dimensional (1D) Kitaev chain and 2D superfluid Bose-Hubbard model, and show its accuracy as well as its robustness against external noise.
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