AION/Magis

Generation of cw 243 nm radiation and application to laser spectroscopy of the strontium isotopes

Optics Communications 50:3 (1984) 199-204

Authors:

CJ Foot, PEG Baird, MG Boshier, DN Stacey, GK Woodgate

Abstract:

Intra-cavity second harmonic generation in a ring dye laser using lithium formate monohydrate has been observed to produce tunable cw UV radiation around 243 nm with single frequency powers of up to 1.4 mW. This wavelength region is of particular interest in the context of Doppler-free spectroscopy of atomic hydrogen. The radiation was used to excite an atomic beam of strontium to study the transition 5s2 1S0-4d5p 1P1 of Sr I. The isotope shifts were determined as follows: 88Sr-87Sr 123.7(8) MHz; 88Sr 285.0(8) MHz; 88Sr-84Sr 600.1(9) MHz. The values are compared with results for other lines and muonic isotope shifts to obtain the specific mass shift and field shift in this transition and to study the configuration mixing effects. The hyperfine structure of 87Sr was not resolved, the intervals being very much less than the measured linewidth of 25 MHz. © 1984.

On the measurement of sin2θw at HERA

Nuclear Physics B Elsevier 233:3 (1984) 365-374

Laser spectroscopy of the tin isotopes

Journal of Physics B: Atomic and Molecular Physics 16:14 (1983) 2485-2497

Authors:

PEG Baird, SA Blundell, G Burrows, CJ Foot, G Meisel, DN Stacey, GK Woodgate

Abstract:

Isotope shifts of all the stable isotopes and the hyperfine splittings of 115Sn, 117Sn and 119Sn have been measured in the transitions 5s25p23P0-5s 25p6s3P1 at 286 nm in Sn I. Tin atoms in a collimated beam to reduce the Doppler width were excited by radiation at 286 nm generated by frequency doubling the light from a CW ring dye laser. Spectra were recorded by monitoring the subsequent decay and calibrated by optical heterodyning. The relative positions of the isotopes are, in MHz: 112; 0.0(1.0), 114;319.5(1.3), 115;412.7(1.1), 116;640.0(0.6), 117;746.8(0.7), 118;945.2(0.7), 119;1039.3(1.1), 120;1214.4(0.5), 122;1448.5(0.7), 124;1656.0(0.7). The bracketed uncertainties are added in quadrature to give the errors of the isotope shifts. For odd-even shifts involving 112, 114, 120, 122 and 124 an extra 0.5 MHz must be added in quadrature. The hyperfine splitting factors of 5s25p6s3P1 are, in MHz: A(115)=-4395.4 (2.1), A(117)=-4790.71(1.7), A(119)=-5014.8(1.9). The results are interpreted in terms of the electronic and nuclear properties of the tin isotopes.

Search for new SS states in the K− induced K+K− system

Nuclear Physics B Elsevier 224:2 (1983) 193-217

Authors:

T Armstrong, M Baubillier, JC Brient, W Beusch, IJ Bloodworth, G Boca, M Bonesini, D Bortoletto, A Burns, JN Carney, G Cecchet, G Costa, C Evangelista, B Ghidini, JB Kinson, V Lenti, L Mandelli, F Navach, A Palano, L Perini, Y Pons, E Quercigh, Z Strachman, M Tamborini, MF Worsell, G Zito, R Zitoun

Evidence for double φ production in the reaction K−p → φφΛ/Σ0 at 18.5 GeV/c

Physics Letters B Elsevier 121:1 (1983) 83-86

Authors:

Bari-Birmingham-CERN-LPNHE Paris-Milan-Pavia Collaboration, T Armstrong, M Baubillier, W Beusch, IJ Bloodworth, D Bortoletto, JC Brient, A Burns, E Calligarich, JN Carney, C Evangelista, B Ghidini, JB Kinson, K Knudson, V Lenti, G Liguori, L Mandelli, F Navach, A Palano, L Perini, Y Pons, E Quercigh, Z Strachman, M Tamborini, MF Worsell, G Zito, R Zitoun