Ross A. Morgan scite author profile

Rydberg excited states of the CS 2 molecule in the energy range 56 000-81 000 cm Ϫ1 have been further investigated via the two and three photon resonance enhancements they provide in the mass resolved multiphoton ionization ͑MPI͒ spectrum of a jet-cooled sample of the parent molecule. Spectral interpretation has been aided by parallel measurements of the kinetic energies of the photoelectrons that accompany the various MPI resonances. Thus we have been able to extend, and clarify, previous analyses of the tangled spin-orbit split vibronic structure associated with the

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The spectroscopy of high Rydberg states of ammonia

Langford

Orr‐Ewing

Morgan

et al. 1998

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General rightsIt is not permitted to download or to forward/distribute the text or part of it without the consent of the author(s) and/or copyright holder(s), other than for strictly personal, individual use, unless the work is under an open content license (like Creative Commons). Disclaimer/Complaints regulationsIf you believe that digital publication of certain material infringes any of your rights or (privacy) interests, please let the Library know, stating your reasons. In case of a legitimate complaint, the Library will make the material inaccessible and/or remove it from the website. Please Ask the Library: http://uba.uva.nl/en/contact, or a letter to: Library of the University of Amsterdam, Secretariat, Singel 425, 1012 WP Amsterdam, The Netherlands. You will be contacted as soon as possible. This paper extends our knowledge of the higher excited states of the ammonia molecule by presenting detailed measurements of the 2ϩ1 resonance enhanced multiphoton ionization ͑REMPI͒ spectrum of both NH 3 and ND 3 obtained following excitation in the wavelength range 298-242 nm, i.e., at energies up to the first ionization energy. Complementary analyses of the wavelength resolved REMPI spectrum and the accompanying REMPI-photoelectron spectra leads to the identification of ten new Rydberg origins of NH 3 ͑four for ND 3 ͒ with principal quantum numbers nр8 and, in most cases, of the accompanying out-of-plane bending vibrational progression. Symmetry assignments for the various newly identified excited states are offered, based on band contour simulation and/or quantum defect considerations. Dominant amongst these are the ẼЉThe present work serves to reinforce the previously noted dominance of np←1a 2 Љ Rydberg excitations in the 2ϩ1 REMPI spectrum of ammonia. In addition, the adiabatic ionization energy of ND 3 is estimated to be 82 280Ϯ40 cm Ϫ1 based on the assumption that analogous Rydberg states of NH 3 and ND 3 will have very similar quantum defects.

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Resonance enhanced multiphoton ionization spectroscopy of carbonyl sulphide

Morgan

Orr‐Ewing

Ascenzi

et al. 1996

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Rydberg excited states of the OCS molecule in the energy range 70500-86000 cm Ϫ1 have been investigated via the two and three photon resonance enhancements they provide in the mass resolved multiphoton ionization ͑MPI͒ spectrum of a jet-cooled sample of the parent molecule. Spectral interpretation has been assisted by companion measurements of the kinetic energies of the photoelectrons that accompany the various MPI resonances. The present study supports the earlier conclusions of Weinkauf and Boesl ͓J. Chem. Phys. 98, 4459 ͑1993͔͒ regarding five Rydberg origins in the 70500-73000 cm Ϫ1 energy range, attributable to, respectively, states of 3 ⌸, 1 ⌸, 3 ⌬, 1 ⌬ and 1 ⌺ ϩ symmetry arising from the 4p←3 orbital promotion. We also identify a further 21 Rydberg origins at higher energies. These partition into clumps with quantum defects ca. 3.5 and 4.5, which we associate with the orbital promotions np←3 (nϭ5,6), and others with near integer quantum defect which are interpretable in terms of excitation to s,d and ͑possibly͒ f Rydberg orbitals. We also identify MPI resonances attributable to CO(X 1 ⌺ ϩ ) fragments and to S atoms in both their ground ( 3 P) and excited ( 1 D) electronic states. Analysis of the former resonances confirms that the CO(X) fragments resulting from one photon dissociation of OCS at excitation wavelengths ca. 230 nm are formed with a highly inverted, bimodal rotational state population distribution, whilst the latter are consistent with previous reports of the wavelength dependence for forming ground and excited state S atoms in the near uv photolysis of OCS.

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Resonance enhanced multiphoton ionisation (REMPI) and REMPI-photoelectron spectroscopy of carbonyl sulphide and carbon disulphide

Morgan

Baldwin

Ascenz

et al. 1996

International Journal of Mass Spectrometry and Ion Processes

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Population trapping in bound states during IR-assisted ultrafast photoionization ofNe+

Hart

Morgan

2014

Phys. Rev. A

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We have investigated photoionization of Ne + in the combined field of a short infra-red laser pulse and a delayed ultra-short pulse of the infra-red laser's 23 rd harmonic. We observe an ionization yield compatible with a picture in which one electron gets excited into Rydberg states by the harmonic laser field and is subsequently removed by the infra-red laser field. Modulations are seen in the ionization yield as a function of time delay. These modulations originate from the trapping of population in low members of the Rydberg series with different states being populated at different ranges of delay times. The calculations further demonstrate that single-threshold calculations cannot reproduce the Ne + photoionization yields obtained in multi-threshold calculations.

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Ross A. Morgan

Resonance enhanced multiphoton ionization spectroscopy of carbon disulphide

The spectroscopy of high Rydberg states of ammonia

Resonance enhanced multiphoton ionization spectroscopy of carbonyl sulphide

Resonance enhanced multiphoton ionisation (REMPI) and REMPI-photoelectron spectroscopy of carbonyl sulphide and carbon disulphide

Population trapping in bound states during IR-assisted ultrafast photoionization ofNe+

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