Quantum systems engineering

Transport enhancement from incoherent coupling between one-dimensional quantum conductors

New Journal of Physics IOP Publishing 16:5 (2014) 053016

Authors:

JJ Mendoza-Arenas, MT Mitchison, SR Clark, J Prior, D Jaksch, MB Plenio

Pressure-Dependent Relaxation in the Photoexcited Mott Insulator ET–F2TCNQ: Influence of Hopping and Correlations on Quasiparticle Recombination Rates

Physical Review Letters American Physical Society (APS) 112:11 (2014) 117801

Authors:

M Mitrano, G Cotugno, SR Clark, R Singla, S Kaiser, J Stähler, R Beyer, M Dressel, L Baldassarre, D Nicoletti, A Perucchi, T Hasegawa, H Okamoto, D Jaksch, A Cavalleri

Exactly Solvable Counting Statistics in Open Weakly Coupled Interacting Spin Systems

Physical Review Letters American Physical Society (APS) 112:6 (2014) 067201

Authors:

Berislav Buča, Tomaž Prosen

Optical properties of a vibrationally modulated solid state Mott insulator.

Sci Rep 4 (2014) 3823

Authors:

S Kaiser, SR Clark, D Nicoletti, G Cotugno, RI Tobey, N Dean, S Lupi, H Okamoto, T Hasegawa, D Jaksch, A Cavalleri

Abstract:

Optical pulses at THz and mid-infrared frequencies tuned to specific vibrational resonances modulate the lattice along chosen normal mode coordinates. In this way, solids can be switched between competing electronic phases and new states are created. Here, we use vibrational modulation to make electronic interactions (Hubbard-U) in Mott-insulator time dependent. Mid-infrared optical pulses excite localized molecular vibrations in ET-F2TCNQ, a prototypical one-dimensional Mott-insulator. A broadband ultrafast probe interrogates the resulting optical spectrum between THz and visible frequencies. A red-shifted charge-transfer resonance is observed, consistent with a time-averaged reduction of the electronic correlation strength U. Secondly, a sideband manifold inside of the Mott-gap appears, resulting from a periodically modulated U. The response is compared to computations based on a quantum-modulated dynamic Hubbard model. Heuristic fitting suggests asymmetric holon-doublon coupling to the molecules and that electron double-occupancies strongly squeeze the vibrational mode.

Three-body bound states in dipole-dipole interacting Rydberg atoms

Physical Review Letters 111:23 (2013)

Authors:

M Kiffner, W Li, D Jaksch

Abstract:

We show that the dipole-dipole interaction between three identical Rydberg atoms can give rise to bound trimer states. The microscopic origin of these states is fundamentally different from Efimov physics. Two stable trimer configurations exist where the atoms form the vertices of an equilateral triangle in a plane perpendicular to a static electric field. The triangle edge length typically exceeds R≈2 μm, and each configuration is twofold degenerate due to Kramers degeneracy. The depth of the potential wells and the triangle edge length can be controlled by external parameters. We establish the Borromean nature of the trimer states, analyze the quantum dynamics in the potential wells, and describe methods for their production and detection. © 2013 American Physical Society.