Dr. Ģirts Barinovs,

Kvantu fiziķis

 

Teorētiskās fizikas katedra
Ķīmiskās fizikas institūts
Latvijas Universitāte
LV 1586, Rīga
Latvija

tel. +371 703-3769
fakss +371 703-3874

Adrese:
34 istaba
Zeļļu 8
Rīga, Latvija


CURRICULUM VITAE
 

Dzimis

19 augustā, 1972

 

 

Sep 1990 - Jūlijs 1996

Fizikas studijas Latvijas Universitātē. Specializācija: Teorētiskā fizika

Sep 1997 - Jūnijs 2002

Ph.D. student working with G. Nyman and N. Markovic at Goteborg Universitet (Sweden)

Jan 2002 - Dec 2005

Post-doctoral research at Leiden University (NL), working with M. C. Hemert

Jan 2007 -

Vadošais pētnieks LU Ķīmiskās fizikas institūtā

Apr 2006 -

Lecturer at Latvian University


Vieszinātnieks (1-2 mēneši)

International Centre for Theoretical Physics, Trieste, Italy (1996)
Harvard-Smithsonian Center for Astrophysics and the Harvard University Physics Department, USA (2004)
Goteborg University, Sweden (2006),
University of British Columbia, Canada (2007)

 

ZINĀTNISKIE PĒTĪJUMI

My research interest is application of microscopic description using quantum mechanics to physical problems. Especially I favour projects involving use of time-dependent description of systems. Recent examples have been application of quantum mechanics to astrophysical problems, namely, to radiative association, fine structure excitation of atoms during collisions with hydrogen, rotational excitation of molecules. Before I have used quantum dynamics to study evolution molecules under influence of time dependent femtosecond laser pulses. When necessary I calculate and fit potential energy surfaces using MOLPRO.

After my return to Latvia I've been involved in nanophysics projects where I try to describe properties of nanowires and surfaces using plane wave self consistenf field (PWSCF) methods and Car Parinello dynamics.

Pasniegšana

Kursi nolasīti Latvijas Universitātē

    2009 Pavasaris, Kvantu fizikas skaitliskās metodes
    2008, 2009 Rudens: Nanotehnoloģijas un nanomateriāli
    2007, 2008, 2009 Rudens: Ievads Nanozinātnē
    2007, 2008, 2009 Pavasaris: Fizika dabaszinātnēm
    2006 Rudens: Termodinamika un statistiskā fizika

PUBLIKĀCIJAS

    1. G. Barinovs, B. Zapol, Self Consistent Equations for Nonorthogonal Group Functions. Latvian Journal of Physics and Technical Sciences 6 44-52 (1996)
    2. B. Zapol, G. Barinovs, Many-Electron Pseudopotentials in the GroupFunctions Theory. Latvian Journal of Physics and Technical Sciences 2 3-10 (1998)
    3. G. Barinovs, N. Markovic, G. Nyman, Split operator method in hyperspherical coordinates: Application to CH2I2 to OClO. J. Chem. Phys., 111, 6705-6711 (1999)
    4. G. Barinovs, N. Markovic, G. Nyman, 3D wave packet calculations on ozone photodissociation in the Hartley band. Convergence of the autocorrelation function. J. Chem. Phys., 315, 282-286 (1999)
    5. G. Barinovs, Fractals and large scale structure of the Universe. Astrophysical Dynamics.Proceedings of the Workshop. Edited by A. B. Romeo, 43 (2000)
    6. G. Barinovs, N. Markovic, G. Nyman, Propagation of 3D wave packets for nonzero total angular momentum using the split operator method. J. Phys. Chem A 105, 7441-7445 (2001)
    7. G. Barinovs, G. Nyman, On the resolution of the filter diagonalization method. Chem. Phys 281, 23-31 (2002)
    8 G. Barinovs, Skeptiski par āderēm, Latvijas arhitektūra, 45, 45 (2003)
    9 G. Barinovs, M. C. van Hemert, CH+ potential energy curves and photodissociation cross-section. Chem. Phys. Lett. 399, 406-411 (2004)
    10 G. Barinovs, M. C. van Hemert, R. Krems and A. Dalgarno, Fine Structure Excitation of C+ and Si+ by Atomic Hydrogen. Astrophys. J. 620, 537-541 (2005)
    11 G. Barinovs, M. C. van Hemert, CH+ radiative association, Astrophys. J. 636, 923-926 (2006)
    12. G. Barinovs, G. Nyman, S. Andersson, Rotational transitions of CO+ induced by atomic hydrogen, Molecules in Space and Laboratory. Editors: J. L. Lemaire, F. Combes. Publisher: S. Diana., p.128-129 (2007).
    13. S. Andersson, G. Barinovs, G. Nyman, Rotational transitions of CO+ induced by atomic hydrogen, Astrophys. J., 678, 1042–1048 (2008)
    14. T. V. Tscherbul, G. Barinovs, J. Klos, R. Krems, Formation of slow molecules in chemical reactions in crossed molecular beams, Physical Review A 78, 022705 (2008).

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