Transient Rydberg Absorption Spectroscopy of Electron Beam Excited Rare Gases
Killeen, Kevin Patrick
This item is only available for download by members of the University of Illinois community. Students, faculty, and staff at the U of I may log in with your NetID and password to view the item. If you are trying to access an Illinois-restricted dissertation or thesis, you can request a copy through your library's Inter-Library Loan office or purchase a copy directly from ProQuest.
Permalink
https://hdl.handle.net/2142/69326
Description
Title
Transient Rydberg Absorption Spectroscopy of Electron Beam Excited Rare Gases
Author(s)
Killeen, Kevin Patrick
Issue Date
1985
Department of Study
Electrical Engineering
Discipline
Electrical Engineering
Degree Granting Institution
University of Illinois at Urbana-Champaign
Degree Name
Ph.D.
Degree Level
Dissertation
Keyword(s)
Chemistry, Physical
Abstract
Transient absorption spectra of molecular and atomic Rydberg transitions in the ultraviolet, visible, and near infrared (220 (LESSTHEQ) (lamda) (LESSTHEQ) 900 nm) spectral regions have been observed in electron beam exci- ted rare gases. The most prominent molecular bands for He(,2), Ne(,2),
Ar(,2), Kr(,2), and Xe(,2) are assigned to the mp('3)(PI)(,g) (LESSTHEQ) ns('3)(SIGMA)(,u)('+) (He: n = 2, 3 (LESSTHEQ) m (LESSTHEQ) 10; Ne: n = 3, 4 (LESSTHEQ) m (LESSTHEQ) 10; Ar: n = 4, 5 (LESSTHEQ) m (LESSTHEQ) 15; Kr: n = 5, 6 (LESSTHEQ) m (LESSTHEQ) 16; Xe: n = 6, 8 (LESSTHEQ) m (LESSTHEQ) 11) Rydberg series of the dimer. Adiabatic ionization potentials, relative to the respective ns ('3)(SIGMA)(,u)('+) state, are determined by extrapolation of the series to their limits
(m (--->) (INFIN)) to be 34361.4 (+OR-) 30 cm('-1) (4.260 (+OR-) 0.004 eV) for He(,2),
34396.3 (+OR-) 25 cm('-1) (4.265 (+OR-) 0.003 eV) for Ne(,2), 29351.9 (+OR-) 15 cm('-1) (3.639 (+OR-) 0.002 eV) for Ar(,2), 28428.5 (+OR-) 10 cm('-1) (3.525 (+OR-) 0.001 eV) for
Kr(,2), and 26664.5 (+OR-) 250 cm('-1) (3.306 (+OR-) 0.031 eV) for Xe(,2). Absorption bands which are ascribed to m'p('3)(SIGMA)(,g)('+) (<---) ns ('3)(SIGMA)(,u)('+) Rydberg series of Ne(,2)(m' = 4,6,8), Ar(,2)(5 (LESSTHEQ) m' (LESSTHEQ) 10) and Kr(,2)(6 (LESSTHEQ) m' (LESSTHEQ) 10) are also reported, and the ionization potentials found to be identical to the respective values quoted above. All of the observed molecular Ryd- berg states have an A('2)(SIGMA)(, 1/2u)('+) ion core. The lowest vibrational quanta ((DELTA)G(, 1/2)) for the ns('3)(SIGMA)(,u)('+) states are determined from vibronic structure
in the Rydberg transitions to be 1723 cm('-1) for He(,2), 539 cm('-1) for Ne(,2), 302 cm('-1) for Ar(,2), 172 cm('-1 )for Kr(,2) and 135 cm('-1) for Xe(,2), and are con- sistent with previously reported values. The instability of this state
with respect to the dimer ion core potential D(,0)(A('2)(SIGMA)(, 1/2u)('+))-D(,0)(ns('3)(SIGMA)(,u)('+)) is accurately calculated to be 0.508 (+OR-) 0.004 eV for He(,2), 0.681 (+OR-)
0.003 eV for Ne(,2), 0.572 (+OR-) 0.002 eV for Ar(,2), 0.560 eV (+OR-) 0.001 eV for Kr(,2) and 0.52 (+OR-) 0.03 eV for Xe(,2). Using these values and those reported for the dissociation energy of the dimer ion A('2)(SIGMA)(, 1/2u)('+) state, D(,0)(ns('3)(SIGMA)(,u)('+)) is estimated (Ne(,2): 0.67 (+OR-) 0.07 eV; Ar(,2): 0.76 (+OR-) 0.02 eV; Kr(,2): 0.62 (+OR-) 0.02 eV; Xe(,2): 0.52 (+OR-) 0.03 eV). The mp('3)(PI)(,g) Rydberg states are correlated with the plausible atomic asymptotes (mp 3/2 (,2) +
('1)S(,0)) by comparison of energy level spacings, quantum defects, and absorption oscillator strengths between the molecular and atomic transitions. Finally, the suppression of gain in e-beam excited visible and UV lasers, by atomic and molecular Rydberg absorptions, is discussed and illustrated for several excimer laser transitions.
Use this login method if you
don't
have an
@illinois.edu
email address.
(Oops, I do have one)
IDEALS migrated to a new platform on June 23, 2022. If you created
your account prior to this date, you will have to reset your password
using the forgot-password link below.
