Possibilities For Francium Spectroscopy In A Light Trap

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Publications Prof. Dr. rer. nat. Axel G˜orlitz

L. A. Orozco, G. D. Sprouse and F. Xhu; Possibilities for Francium Spectroscopy in a Light Trap; Hyperflne Interactions, 81:197, 1993. Popular articles [1] A. G˜orlitz and T. Pfau; Kalte Atome im Kollektiv - Auf Einsteins Spuren zum Nobelpreis; Neue Z˜uricher Zeitung, (283):77, 2001; Bericht ˜uber den Physik-Nobelpreis 2001.

Analysis/Reduction of Residual Amplitude Modulation in Phase

upwards of 1.5 x 10' francium atoms in steady state in the capture trap. After accumulation in this first magneto-optical trap (MOT), we trans- fer the atoms to a different region where a far off resonance optical trap holds the cloud of cold atoms at the magnetic node of a standing mi- crowave field created by a Fabry-Perot cavity.

Possibilities for francium spectroscopy in a light trap

J.A. Behr et al. / Francium spectroscopy in a light trap 199 estimated the francium yield of the 180 + 197Au reaction by a statistical model calculation fitted to literature data [7] on the 160 + 197Au reaction. The result is that more than 15% of the francium produced in the target reaches the catcher.

Tentative schedule of Atomic Physics Seminars, Spring 1997

8 Prof. Luis Orozco, SUNY, Stoney Brook, Spectroscopy of Francium 9 Prof. Peter Toschek, University of Hamburg, Quantum Measurement of a Single Ion in a Trap 22 Dr. John Willison, Stanford Research Systems, Inc. Sonoluminescence: Emission Characteristics and Mechanisms October

LASER spectroscopy for the study of nuclear properties LASPEC

several 10 keV collinear laser spectroscopy, resonance ionization spectroscopy, or other optical techniques can be applied on the singly-charged ions or, employing a charge exchange cell, on a fast atomic beam. Neutral atom trap: such a trap can be used to perform laser spectroscopy with very high resolving power and isotopic selectivity.


Jun 12, 2019 INSTITUTE OF PHYSICS PUBLISHING JOURNAL OF PHYSICS B: ATOMIC, MOLECULAR AND OPTICAL PHYSICS J. Phys. B: At. Mol. Opt. Phys. 36 (2003) 4799 4812 PII: S0953-4075(03)66647-2 Model-potential calculations for ground and excited Σ

Novel radioactive ion-beam production techniques Report on

isotopes produced in fusion evaporation reactions , opening up new possibilities for in-source laser spectroscopy studies in, e.g., the N = Z and the actinide regions of the chart of nuclides. A recent experimental campaign at LISOL has been devoted to in-gas-cell laser spectroscopy studies of neutron deficient actinium isotopes.