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Your search keyword '"Leonid A. Surin"' showing total 9 results
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9 results on '"Leonid A. Surin"'

1. Ab initio potential and rotational spectra of the CO–N2 complex

Author

A. van der Avoird, I.V. Tarabukin, Yulia N. Kalugina, Leonid A Surin, and Stephan Schlemmer

Subjects
Physics, 010304 chemical physics, неэмпирический потенциал, Ab initio, General Physics and Astronomy, Rotational–vibrational spectroscopy, вращательные спектры, 010402 general chemistry, комплекс CO-N2, 01 natural sciences, Molecular physics, 0104 chemical sciences, Rotational energy, Coupled cluster, Ab initio quantum chemistry methods, 0103 physical sciences, Bound state, Physical and Theoretical Chemistry, Triplet state, Theoretical Chemistry, Basis set
Abstract

Ab initio calculations of the intermolecular potential energy surface (PES) of CO-N2 have been carried out using the closed-shell single- and double-excitation coupled cluster approach with a non-iterative perturbative treatment of triple excitations method and the augmented correlation-consistent quadruple-zeta (aug-cc-pVQZ) basis set supplemented with midbond functions. The global minimum (De = 117.35 cm-1) of the four-dimensional PES corresponds to an approximately T-shaped structure with the N2 subunit forming the leg and CO the top. The bound rovibrational levels of the CO-N2 complex were calculated for total angular momenta J = 0-8 on this intermolecular potential surface. The calculated dissociation energies D0 are 75.60 and 76.79 cm-1 for the ortho-N2 (A-symmetry) and para-N2 (B-symmetry) nuclear spin modifications of CO-N2, respectively. Guided by these bound state calculations, a new millimeter-wave survey for the CO-N2 complex in the frequency range of 110-145 GHz was performed using the intracavity OROTRON jet spectrometer. Transitions not previously observed were detected and assigned to the subbands connecting the K = 0 and 1, (jCO, jN2 ) = (1, 0) states with a new K = 1, (jCO, jN2 ) = (2, 0) state. Finally, the measured rotational energy levels of the CO-N2 complex were compared to the theoretical bound state results, thus providing a critical test of the quality of the PES presented. The computed rovibrational wave functions were analyzed to characterize the nature of the different bound states observed for the two nuclear spin species of CO-N2.

Published
2018

2. The potential energy surface of the Ar-CO complex obtained using high-resolution data

Author

L. H. Coudert, I. Pak, and Leonid A Surin

Subjects
Chemistry, General Physics and Astronomy, Infrared spectroscopy, Kinetic energy, Potential energy, symbols.namesake, Amplitude, Potential energy surface, symbols, Physical and Theoretical Chemistry, van der Waals force, Atomic physics, Hamiltonian (quantum mechanics), Microwave
Abstract

A potential energy surface is retrieved for the Ar-CO complex by carrying out a global analysis of its high-resolution spectroscopic data. The data set consists of already published microwave and infrared data and of new microwave transitions which are presented in the paper. The theoretical approach used to reproduce the spectrum is based on a model Hamiltonian which accounts simultaneously for the two large amplitude van der Waals modes and for the overall rotation of the complex. Only the vCO = 0 state is considered. The root-mean-square deviation of the analysis is 18 MHz for the microwave data and 1.4 x 10(-3) cm(-1) for the infrared energy difference data. Fifteen parameters corresponding to the potential energy function are determined in addition to two kinetic energy parameters and two distortion-type parameters. The potential energy surface derived is in good agreement with the one obtained by Shin, Shin, and Tao [J. Chem. Phys. 104, 183 (1996)].

Published
2004

3. Millimeter-wave intracavity-jet OROTRON-spectrometer for investigation of van der Waals complexes

Author

Frank Lewen, Gisbert Winnewisser, I. Pak, F. S. Rusin, Leonid A Surin, Daniel Roth, Boris S. Dumesh, and V. P. Kostromin

Subjects
Jet (fluid), Materials science, Spectrometer, Physics::Instrumentation and Detectors, business.industry, Physics::Optics, Curved mirror, Plane mirror, Resonator, symbols.namesake, Optics, symbols, Cathode ray, van der Waals force, business, Absorption (electromagnetic radiation), Instrumentation
Abstract

A highly sensitive intracavity millimeter-wave spectrometer was developed for the investigation of the absorption spectra of van der Waals complexes in a supersonic jet. The key element of the spectrometer is a tunable oscillator, called OROTRON, which generates the millimeter-wave radiation through the interaction of an electron beam with the electromagnetic field of a high quality (Q≈104) Fabry–Perot resonant cavity. This cavity consists of a movable spherical mirror and a fixed planar mirror with the periodic structure imprinted on its surface. The electron beam moves along the periodic structure of the plane mirror. This part separated from the rest of the resonator by a mica foil is kept under ultrahigh vacuum conditions. The molecular jet is injected by a pulsed valve into the other part of the resonator. The absorption in the jet is sensitively detected by measuring the electric current in a special collector circuit of the OROTRON. The spectral purity of the OROTRON radiation is 10–15 kHz providin...

Published
2001

4. The CO dimer millimeter wave spectrum: Detection of tunneling transitions

Author

Boris S. Dumesh, Leonid A Surin, Gisbert Winnewisser, Daniel Roth, and I. Pak

Subjects
Range (particle radiation), Absorption spectroscopy, Spectrometer, Infrared, Chemistry, Extremely high frequency, General Physics and Astronomy, Physical and Theoretical Chemistry, Atomic physics, Quantum tunnelling, Intensity (physics), Line (formation)
Abstract

A portion of the CO dimer millimeter wave absorption spectrum has been studied by using our highly sensitive intracavity-jet OROTRON spectrometer in the frequency range from 131 to 174 GHz. By varying the CO concentration in the Ne/CO gas mixture feeding the supersonic jet expansion, the effective temperature of the beam could be changed, revealing a correlation between the observed line intensity and the relative energy of the respective lower state energy levels. Using this temperature dependence and the technique of combination differences together with the data from the infrared study of Brookes and McKellar [J. Chem. Phys. 111, 7321 (1999)], out of over 200 observed transitions, a total of 19 lines could be assigned. All assigned millimeter-wave transitions are tunneling transitions. They belong to four subbands, which connect seven lower energy levels with A+ symmetry to ten previously unknown upper energy levels with A− symmetry. The A+ and A− separation signifies the tunneling splitting of the CO ...

Published
2000

5. Detection of the millimeter wave spectra of the weakly bound complexes 3He–CO and 4He–CO

Author

Daniel Roth, Frank Lewen, Gisbert Winnewisser, Leonid A Surin, Boris S. Dumesh, and I. Pak

Subjects
Jet (fluid), Absorption spectroscopy, Spectrometer, Chemistry, Interstellar cloud, General Physics and Astronomy, Spectral line, symbols.namesake, Extremely high frequency, symbols, Supersonic speed, Physical and Theoretical Chemistry, Atomic physics, van der Waals force, Astrophysics::Galaxy Astrophysics
Abstract

For the first time, millimeter wave absorption spectra of the van der Waals complexes 3He–CO and 4He–CO were detected in a supersonic jet. Altogether four rotational transitions of 3He–CO and six rotational transitions of 4He–CO were recorded between 110 GHz and 127 GHz with an intracavity spectrometer based on the millimeter wave generator, called OROTRON. The obtained results were included in a global fit together with previously known data enabling a more precise determination of the energy levels of the 3He–CO and 4He–CO complexes. In extremely cold, dark, and dense interstellar clouds the He–CO complex may have astrophysical relevance.

Published
2000

6. Microwave and millimeter wave study of Ortho-N2 states of CO–N2

Author

L. A. Panfilov, Wolfgang Jäger, Gisbert Winnewisser, Leonid A Surin, I. Pak, and Yunjie Xu

Subjects
Spectrometer, Chemistry, Analytical chemistry, General Physics and Astronomy, Resonance, Astrophysics::Cosmology and Extragalactic Astrophysics, Quantum number, Quadrupole, Extremely high frequency, Physical and Theoretical Chemistry, Atomic physics, Molecular beam, Hyperfine structure, Microwave
Abstract

Microwave and millimeter wave transitions of the CO–N2 complex were investigated using three different instruments, namely, a pulsed molecular beam Fourier transform microwave spectrometer in the frequency region from 4 to 26 GHz, a microwave-millimeter wave double resonance spectrometer in the frequency regions from 8 to 18 GHz for the microwave and 107–118 GHz for the millimeter wave range, and an OROTRON spectrometer in the frequency range from 107 to 132 GHz. Both a- and b-type transitions associated with the ground-state K=0 levels and the lower K=1 levels of the ortho-N2 states, and with rotational quantum number J up to 19, were measured and analyzed. Nuclear quadrupole hyperfine splittings due to the presence of two equivalent 14N nuclei were resolved and analyzed to give additional information about the angular anisotropy of the interaction potential. The nuclear quadrupole coupling constants obtained are χaa=0.196 41(52) MHz for K=0 levels, and χaa=−1.0391(17) MHz, χbb=0.0633(17) MHz for the low...

Published
1999

7. Two highly sensitive microwave cavity spectrometers

Author

Boris S. Dumesh and Leonid A Surin

Subjects
Wavelength, Resonator, Materials science, Optics, Spectrometer, business.industry, Resonance, Radio frequency, Spectral resolution, Absorption (electromagnetic radiation), business, Instrumentation, Microwave cavity
Abstract

A description is presented for two unconventional highly sensitive spectrometers operating in the decimeter‐wave region (90–450 MHz) and millimeter‐wave region (90–150 GHz), respectively. In both cases a resonant cavity is used as an absorption cell. Either design combines high sensitivity with high resolution and wide spectral range. The radio frequency spectrometer allows measuring of extremely low absorption quantity 3×10−12 cm−1 in combination with high spectral resolution of order 1 kHz with the radio frequency–microwave double resonance method. The gas cell is a coaxial cavity (Q≊103) with a diameter of 40 cm and length about a wavelength. The millimeter‐wave spectrometer utilizes an orotron oscillator as the tunable, coherent source of radiation from 90 to 150 GHz. A gas cell is placed into a high quality (Q≊104) Fabry–Perot resonator of the orotron, and the absorption signal is detected by variation of the orotron electron current in the collector circuit. The sensitivity limit of (2–5)×10−10 cm−1...

Published
1996

8. The weakly bound complex CO–orthoD2: Detection of millimeter-wave transitions

Author

Boris S. Dumesh, Gisbert Winnewisser, Leonid A Surin, and I. Pak

Subjects
Jet (fluid), Spectrometer, Infrared, Chemistry, General Physics and Astronomy, symbols.namesake, Deuterium, Extremely high frequency, symbols, Supersonic speed, Physical and Theoretical Chemistry, Atomic physics, van der Waals force, Ground state
Abstract

For the first time two rotational transitions of the CO–orthoD2 van der Waals molecular complex have been recorded in a supersonic jet and assigned to the two R-branch transitions, R(1) (J,j,l)=2,1,1←1,0,1 112 806.515(50) MHz, R(2)=3,1,2,←2,0,2 119 746.484(50) MHz. These transitions were detected with the highly sensitive intracavity spectrometer based on the millimeter wave generator, called OROTRON. Their measured frequencies are in close agreement with the frequency positions predicted from the infrared spectrum, which accompanies the fundamental band of CO in the 4.7 μm region, and which has been published recently by McKellar [J. Chem. Phys. 112, 9282 (2000)]. The millimeter wave transitions will allow a precise determination of the rotational levels with different parity in the vibrational vCO=0 ground state.

Published
2000

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