Cavity-enhanced parity-nonconserving optical rotation in metastable Xe and Hg

We propose the measurement of cavity-enhanced parity-nonconserving (PNC) optical rotation in several transitions of metastable Xe and Hg, including Xe (2P(3/2)(o))6s(2)[3/2](2)(o)→(2P(1/2)(o))6s(2)[1/2](1)(o) and Hg 6s6p (3)P(2)(o)→6s6p (1)P(1)(o), with calculated amplitude ratios of E(1)(PNC)/M1=11...

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Veröffentlicht in:	Physical review letters 2012-05, Vol.108 (21), p.210801-210801, Article 210801
Hauptverfasser:	Bougas, L, Katsoprinakis, G E, von Klitzing, W, Sapirstein, J, Rakitzis, T P
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container_title	Physical review letters
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creator	Bougas, L Katsoprinakis, G E von Klitzing, W Sapirstein, J Rakitzis, T P
description	We propose the measurement of cavity-enhanced parity-nonconserving (PNC) optical rotation in several transitions of metastable Xe and Hg, including Xe (2P(3/2)(o))6s(2)[3/2](2)(o)→(2P(1/2)(o))6s(2)[1/2](1)(o) and Hg 6s6p (3)P(2)(o)→6s6p (1)P(1)(o), with calculated amplitude ratios of E(1)(PNC)/M1=11×10(-8) and 10×10(-8), respectively. We demonstrate the use of a high-finesse bow-tie cavity with counterpropagating beams and a longitudinal magnetic field, which allows the absolute measurement of chiral optical rotation, with a path length enhancement of about 10(4), necessary for PNC measurement from available column densities of 10(14) cm(-2) for metastable Xe or Hg. Rapid PNC-signal reversal, allowing robust background subtraction, is achieved by shifting the cavity resonance to an opposite polarization mode or by inverting the magnetic field. The precise measurement of isotope and nuclear-spin dependent E(1)(PNC) amplitudes provides a sensitive low-energy test of the standard model.
doi_str_mv	10.1103/PhysRevLett.108.210801
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title	Cavity-enhanced parity-nonconserving optical rotation in metastable Xe and Hg
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