TY - JOUR
T1 - Doppler-free high resolution laser spectroscopies of the naphthalene molecule
AU - Kabir, M. H.
AU - Kasahara, S.
AU - Demtröder, W.
AU - Tatamitani, Y.
AU - Okubo, M.
AU - Misono, M.
AU - Wang, J.
AU - Baba, M.
AU - Joo, D. L.
AU - O'Reilly, J.
AU - Doi, A.
AU - Kimura, Y.
AU - Katô, H.
PY - 2002/10/1
Y1 - 2002/10/1
N2 - In this work, a variety of techniques, namely Doppler-free polarization labeling spectroscopy, Doppler-free two photon absorption spectroscopy, and laser excitation spectroscopy with reduced Doppler width achieved by crossing a laser beam at right angles to a collimated molecular beam, have been employed to generate fully rotationally resolved spectra of the naphthalene molecule. The A1B1u(v8 = 1: b2g) ← X1Ag(v = 0) transition has been investigated by means of Doppler-free laser polarization spectroscopy. This is the first application of this technique to the study of a large polyatomic molecule, and when complemented with an optical-optical double resonance it is demonstrated to be very effective. The A1B1u(v4 = 1: b1u) ← X1Ag(v = 0) transition has been recorded by means of two-photon absorption spectroscopy with counter propagating light beams of identical wavelength within an external cavity. Additionally, the effects of an external magnetic field were measured, and the Zeeman splittings were observed to increase with increasing the rotational quantum number J. The Zeeman splittings of the A1B1u (v8 = 1: b2g, J) levels, which lie 1100 cm-1 below the A1B1u(v4 = 1: b1u, J) levels, were measured by means of laser excitation spectroscopy by which a laser beam is crossed with a collimated molecular beam. The magnetic moment of the A1B1u (v8 = 1: b2g, J) level was observed to be smaller than that of the A1B1u(v4 = 1: b1u, J) level.
AB - In this work, a variety of techniques, namely Doppler-free polarization labeling spectroscopy, Doppler-free two photon absorption spectroscopy, and laser excitation spectroscopy with reduced Doppler width achieved by crossing a laser beam at right angles to a collimated molecular beam, have been employed to generate fully rotationally resolved spectra of the naphthalene molecule. The A1B1u(v8 = 1: b2g) ← X1Ag(v = 0) transition has been investigated by means of Doppler-free laser polarization spectroscopy. This is the first application of this technique to the study of a large polyatomic molecule, and when complemented with an optical-optical double resonance it is demonstrated to be very effective. The A1B1u(v4 = 1: b1u) ← X1Ag(v = 0) transition has been recorded by means of two-photon absorption spectroscopy with counter propagating light beams of identical wavelength within an external cavity. Additionally, the effects of an external magnetic field were measured, and the Zeeman splittings were observed to increase with increasing the rotational quantum number J. The Zeeman splittings of the A1B1u (v8 = 1: b2g, J) levels, which lie 1100 cm-1 below the A1B1u(v4 = 1: b1u, J) levels, were measured by means of laser excitation spectroscopy by which a laser beam is crossed with a collimated molecular beam. The magnetic moment of the A1B1u (v8 = 1: b2g, J) level was observed to be smaller than that of the A1B1u(v4 = 1: b1u, J) level.
UR - http://www.scopus.com/inward/record.url?scp=0036784590&partnerID=8YFLogxK
U2 - 10.1016/S0301-0104(02)00493-7
DO - 10.1016/S0301-0104(02)00493-7
M3 - Article
AN - SCOPUS:0036784590
SN - 0301-0104
VL - 283
SP - 237
EP - 247
JO - Chemical Physics
JF - Chemical Physics
IS - 1-2
ER -