Berlin 2001 – scientific programme

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Q: Quantenoptik

Q 14: Cooling and Trapping II (joint session A and Q)

Q 14.7: Talk

Tuesday, April 3, 2001, 19:00–19:15, H 104

Super resolution of pulsed multi-photon Raman transitions — •Martin Weitz^1,2, Francesco Cataliotti¹, Rainer Scheunemann^1,2, and Theodor W. Hänsch^1,2 — ¹Max-Planck-Institut für Quantenoptik, Hans-Kopfermann-Str. 1, 85748 Garching — ²Sektion Physik der Universität München, Schellingstr. 4, 80799 München

Multiple quantum transitions can occur in atomic systems strongly driven by ac fields. Using two pulsed optical fields and ultracold rubidium atoms confined in a CO₂-laser dipole trap, we have examined higher order multiphoton Raman transitions. Multiphoton transfer with up to 50 photons is achieved between two stable Zeeman ground state sublevels driven by milliwatts of laser power. The multiphoton resonances are observed at subharmonic frequencies of the laser difference frequency required for two-photon Raman transfer.

We have investigated the spectral width of the multiphoton resonances for finite interaction times. It is observed that the spectral width of the multiphoton resonances can be far below the Fourier transform width of the driving optical pulses [1]. This line narrowing can be understood by considering that the multiphoton transfer involves the simultaneous interaction of several photons, such that the Heisenberg time-energy uncertainty relation involves the Fourier transform of a quantum state of several photons as a whole.

[1] F. S. Cataliotti, R. Scheunemann, T. W. Hänsch, and M. Weitz, submitted for publication.

This document was translated from L^AT_EX by H^EV^EA.