Measurement of the Positronium 13 S1-23 S1 Interval by Continuous-Wave Two-Photon Excitation

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • M. S. Fee
  • A. P. Mills
  • S. Chu
  • E. D. Shaw
  • K. Danzmann
  • R. J. Chichester
  • D. M. Zuckerman

Externe Organisationen

  • Stanford University
  • Lucent
  • Rutgers - The State University of New Jersey, Newark
  • Max-Planck-Institut für Quantenoptik (MPQ)
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Details

OriginalspracheEnglisch
Seiten (von - bis)1397-1400
Seitenumfang4
FachzeitschriftPhysical review letters
Jahrgang70
Ausgabenummer10
PublikationsstatusVeröffentlicht - 8 März 1993
Extern publiziertJa

Abstract

Using continuous-wave excitation to eliminate the problems inherent with pulsed laser measurements of nonlinear transitions, we have measured the 13S1-23S1 interval in positronium (Ps) to be 1 233 607 216.43.2 MHz. The quoted 2.6 ppb (parts per 109) uncertainty is primarily due to the determination of the Ps resonance relative to the Te2 reference line, with a 1.5 ppb contribution from a recent calibration of the Te2 line relative to the hydrogen 1S-2S transition. The uncertainty corresponds to 3.5×10-5 of the 2R QED contribution to the 13S1-23S1 interval. Our measurement is sufficiently accurate to provide a test of the as yet uncalculated 4R QED corrections.

ASJC Scopus Sachgebiete

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Measurement of the Positronium 13 S1-23 S1 Interval by Continuous-Wave Two-Photon Excitation. / Fee, M. S.; Mills, A. P.; Chu, S. et al.
in: Physical review letters, Jahrgang 70, Nr. 10, 08.03.1993, S. 1397-1400.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Fee, MS, Mills, AP, Chu, S, Shaw, ED, Danzmann, K, Chichester, RJ & Zuckerman, DM 1993, 'Measurement of the Positronium 13 S1-23 S1 Interval by Continuous-Wave Two-Photon Excitation', Physical review letters, Jg. 70, Nr. 10, S. 1397-1400. https://doi.org/10.1103/PhysRevLett.70.1397
Fee, M. S., Mills, A. P., Chu, S., Shaw, E. D., Danzmann, K., Chichester, R. J., & Zuckerman, D. M. (1993). Measurement of the Positronium 13 S1-23 S1 Interval by Continuous-Wave Two-Photon Excitation. Physical review letters, 70(10), 1397-1400. https://doi.org/10.1103/PhysRevLett.70.1397
Fee MS, Mills AP, Chu S, Shaw ED, Danzmann K, Chichester RJ et al. Measurement of the Positronium 13 S1-23 S1 Interval by Continuous-Wave Two-Photon Excitation. Physical review letters. 1993 Mär 8;70(10):1397-1400. doi: 10.1103/PhysRevLett.70.1397
Fee, M. S. ; Mills, A. P. ; Chu, S. et al. / Measurement of the Positronium 13 S1-23 S1 Interval by Continuous-Wave Two-Photon Excitation. in: Physical review letters. 1993 ; Jahrgang 70, Nr. 10. S. 1397-1400.
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abstract = "Using continuous-wave excitation to eliminate the problems inherent with pulsed laser measurements of nonlinear transitions, we have measured the 13S1-23S1 interval in positronium (Ps) to be 1 233 607 216.43.2 MHz. The quoted 2.6 ppb (parts per 109) uncertainty is primarily due to the determination of the Ps resonance relative to the Te2 reference line, with a 1.5 ppb contribution from a recent calibration of the Te2 line relative to the hydrogen 1S-2S transition. The uncertainty corresponds to 3.5×10-5 of the 2R QED contribution to the 13S1-23S1 interval. Our measurement is sufficiently accurate to provide a test of the as yet uncalculated 4R QED corrections.",
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AU - Fee, M. S.

AU - Mills, A. P.

AU - Chu, S.

AU - Shaw, E. D.

AU - Danzmann, K.

AU - Chichester, R. J.

AU - Zuckerman, D. M.

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N2 - Using continuous-wave excitation to eliminate the problems inherent with pulsed laser measurements of nonlinear transitions, we have measured the 13S1-23S1 interval in positronium (Ps) to be 1 233 607 216.43.2 MHz. The quoted 2.6 ppb (parts per 109) uncertainty is primarily due to the determination of the Ps resonance relative to the Te2 reference line, with a 1.5 ppb contribution from a recent calibration of the Te2 line relative to the hydrogen 1S-2S transition. The uncertainty corresponds to 3.5×10-5 of the 2R QED contribution to the 13S1-23S1 interval. Our measurement is sufficiently accurate to provide a test of the as yet uncalculated 4R QED corrections.

AB - Using continuous-wave excitation to eliminate the problems inherent with pulsed laser measurements of nonlinear transitions, we have measured the 13S1-23S1 interval in positronium (Ps) to be 1 233 607 216.43.2 MHz. The quoted 2.6 ppb (parts per 109) uncertainty is primarily due to the determination of the Ps resonance relative to the Te2 reference line, with a 1.5 ppb contribution from a recent calibration of the Te2 line relative to the hydrogen 1S-2S transition. The uncertainty corresponds to 3.5×10-5 of the 2R QED contribution to the 13S1-23S1 interval. Our measurement is sufficiently accurate to provide a test of the as yet uncalculated 4R QED corrections.

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