Peter Leek

Characterization of a microwave frequency resonator via a nearby quantum dot

APPLIED PHYSICS LETTERS 98:26 (2011) ARTN 262105

Authors:

T Frey, PJ Leek, M Beck, K Ensslin, A Wallraff, T Ihn

Fabrication and heating rate study of microscopic surface electrode ion traps

NEW JOURNAL OF PHYSICS 13 (2011) ARTN 013032

Authors:

N Daniilidis, S Narayanan, SA Moeller, R Clark, TE Lee, PJ Leek, A Wallraff, St Schulz, F Schmidt-Kaler, H Haeffner

Fabrication and heating rate study of microscopic surface electrode ion traps

(2010)

Authors:

N Daniilidis, S Narayanan, SA Möller, R Clark, TE Lee, PJ Leek, A Wallraff, St Schulz, F Schmidt-Kaler, H Häffner

Quantum-to-Classical Transition in Cavity Quantum Electrodynamics

(2010)

Authors:

JM Fink, L Steffen, P Studer, Lev S Bishop, M Baur, R Bianchetti, D Bozyigit, C Lang, S Filipp, PJ Leek, A Wallraff

Quantum-to-Classical Transition in Cavity Quantum Electrodynamics

ArXiv 1003.1161 (2010)

Authors:

JM Fink, L Steffen, P Studer, Lev S Bishop, M Baur, R Bianchetti, D Bozyigit, C Lang, S Filipp, PJ Leek, A Wallraff

Abstract:

The quantum properties of electromagnetic, mechanical or other harmonic oscillators can be revealed by investigating their strong coherent coupling to a single quantum two level system in an approach known as cavity quantum electrodynamics (QED). At temperatures much lower than the characteristic energy level spacing the observation of vacuum Rabi oscillations or mode splittings with one or a few quanta asserts the quantum nature of the oscillator. Here, we study how the classical response of a cavity QED system emerges from the quantum one when its thermal occupation -- or effective temperature -- is raised gradually over 5 orders of magnitude. In this way we explore in detail the continuous quantum-to-classical crossover and demonstrate how to extract effective cavity field temperatures from both spectroscopic and time-resolved vacuum Rabi measurements.