Yuriy A. Kolesnichenko

Prof. Dr. Yuriy A. KOLESNICHENKO

Date of birth: 06/01/1953.
Place of birth: Kharkov, Ukraine (USSR).

Office address:
B.I. Verkin Institute for Low Temperature Physics & Engineering of
the National Academy of Sciences of Ukraine,
47, Nauky ave., Kharkov, 61103, Ukraine.
E-mail:
Phone: +(380)57-3410868
Fax: +(380)57-3403370
https://www.scopus.com/authid/detail.uri?authorId=7005312956
https://scholar.google.com.ua/citations?user=Imdyr_QAAAAJ&hl=uk
https://orcid.org/0000-0001-5770-631X
https://www.researchgate.net/profile/Yu_Kolesnichenko

UNIVERSITY AND PROFESSIONAL BACKGROUND

1. Physicist (M.Sc.), Diploma of Kharkov State University, Kharkov, Ukraine, 1975
2. Candidate of Sciences (Ph.D), 1980
3. Senior Scientific Researcher, Solid State Physics, 1989
4. Doctor of Sciences, Physics and Mathematics, 1991
5. Professor, Solid State Physics, Certificate of Ministry of Education and Science, Kiev, Ukraine, 2004
5. Winner of State Prize of Ukraine in the Field of Science and Engineering, 2015

PROFESSIONAL POSITIONS IN THE INSTITUTE FOR LOW TEMPERATURE PHYSICS AND ENGINEERING OF NATIONAL ACADEMY OF SCIENCES OF UKRAINE

1. Junior Researcher, 1975 -1985.
2. Senior Researcher, 1985 -1992.
3. Leading Researcher, 1992-2002.
4. Head of Department, Department of Transport Properties of Conducting and Superconducting Systems, from 2002

Associate Editor-in Chief of the journal “Low Temperature Physics” ("Fizika Nizkikh Temperatur"), from 2007

Promoter (supervisor) of Ph.D theses:

Dekhtyaruk L.V. "Kinetic effects in multilayered metal structures", Sumi State University, Sumi, Ukraine, 1998.
Tesgera Bedassa "Ballistic and nonlinear effects in layered conductors in magnetic field", Kharkov State University, Kharkov, Ukraine, 1998.
Afshin Namiranian "Nonlinear conductance of quantum point contacts", Institute for Advanced Studies in Basic Sciences, Zanjan, Iran, 2000
Shevchenko S.N. "Current states in mesoscopic normal and superconducting systems", Institute for Low Temperature Physics & Engineering of the National Academy of Sciences of Ukraine, Kharkov, Ukraine, 2003
Golamreza Rashedi "Charge and spin currents in superconducting weak links", Institute for Advanced Studies in Basic Sciences, Zanjan, Iran, 2005
Avotina Ye.S. “The influence of single defects on the nonlinear conductivity of quantum contacts”, Institute for Low Temperature Physics & Engineering of the National Ukrainian Academy of Sciences of Ukraine, Kharkov, Ukraine, 2006
Kozlov I.V. "Quantum oscillation phenomena in layered organic conductors in a strong magnetic field", Institute for Low Temperature Physics & Engineering of the National Ukrainian Academy of Sciences of Ukraine, Kharkov, Ukraine, 2014
Khotkevich-Sanina N.V. "Conductivity of tunnel point contacts", Institute for Low Temperature Physics & Engineering of the National Ukrainian Academy of Sciences of Ukraine, Kharkov, Ukraine, 2014
Mirzoiev I.G. "Transport properties of conducting systems: quantum effects manifistations", Institute for Low Temperature Physics & Engineering of the National Ukrainian Academy of Sciences of Ukraine, Kharkov, Ukraine, 2017

Field of scientific interests: transport properties of point contacts and mesoscopic systems, Josephson effect in unconventional superconductors, conducting properties of metallic multilayers and layered organic conductors, theory of STM.

Author and co-author of more than 100 papers in reviewed journals, 4 reviews, 4 inventions; h-index 15 (Scopus, 10.03.2020)

Список опубликованных статей

SELECTED PUBLICATIONS

1. Kolesnichenko Yu.A. Electron focusing in metals (Review) // Sov.J. Low Temp. Phys., 18, No.10, 741-759 (1992)
2. Kirichenko O.V., Kolesnichenko Yu.A., Peschansky V.G. Electron Phenomena in Layered Conductors (Review) // Physics Reviews (Ed. I. M. Khalatnikov), 18, Part 4, 1-110 (1998)
3. Namiranian A., Kolesnichenko Yu.A., Omelyanchouk A.N. Effect of quantum interference in nonlinear conductance of metallic microconstrictions // Phys. Rev. B, 61, No.23, 16796 (2000)
4. Shevchenko S.N., Kolesnichenko Yu.A. Conductance of the elliptically shaped quantum wire // JETP, 92, No.5, 811 (2001)
5. Namiranian A., Khajehpour M.R.H., Yu.A. Kolesnichenko, S.N. Shevchenko Conductivity of a two-dimensional curved microconstriction // Physica E, 10, 549 (2001)
6. Kolesnichenko Yu.A., Omelyanchouk A.N., Shevchenko S.N. Nonlocal mixing of supercurrents in Josephson ballistic point contacts // Phys. Rev. B, 67, 172504 (2003)
7. Rashedi G., Kolesnichenko Yu.A. Effect of point-contact transparency on the coherent mixing of Josephson and transport supercurrents // Phys. Rev. B, 69, 024516 (2004)
8. Namiranian A., Avotina Ye.S., Kolesnichenko Yu.A. Nonlinear conductance of a quantum microconstriction with single slow two-level system // Phys. Rev. B., 70, No.7, 073308 (2004)
9. Avotina Ye.S., Namiranian A., Kolesnichenko Yu.A. Voltage-dependent conductance and shot noise in quantum microconstrictions with single defects // Phys. Rev. B, 70, 075308 (2004)
10. Dekhtyaruk L.V., Kolesnichenko Yu.A., Peschansky V.G. Kinetic Phenomena in Metallic Multilayers (Review) // Physics Reviews (Ed. I.M.Khalatnikov, Cambridge Scientific Publishers), 20, Part 4, 1-113 (2004)
11. Omelyanchouk A.N., Shevchenko S.N., Kolesnichenko Yu.A. Vortex-like current states in Josephson ballistic point contacts // J. Low Temp. Phys., 139, № 1, 247 (2005)
12. Avotina Ye.S., Kolesnichenko Yu.A., Omelyanchouk A.N., Otte A.F., van Ruitenbeek J.M. Method to determine defect positions below a metal surface by STM // Phys. Rev. B, 71, No.11, 115430 (2005)
13. Avotina Ye.S., Kolesnichenko Yu.A., Otte A.F., van Ruitenbeek J.M. Signature of Fermi surface anisotropy in point contact conductance in the presence of defects // Phys. Rev. B., 74, 085411 (2006)
14. Avotina Ye.S., Kolesnichenko Yu.A., Otte A.F., van Ruitenbeek J.M. Magneto-quantum oscillations of the conductance of a tunnel point contact in the presence of a single defect // Phys. Rev. B.,75, 125411 (2007)
15. Avotina Ye.S., Kolesnichenko Yu.A., van Ruitenbeek J.M. The signature of subsurface Kondo impurities in the local tunnel current // J.Phys.: Cond. Mat., 20, No.11, 115208 (2008)
16. Avotina Ye.S., Kolesnichenko Yu.A., van Ruitenbeek J.M. Magneto-orientation and quantum size effects in spin-polarized STM conductance in the presence of a subsurface magnetic cluster // Phys. Rev. B, 80, No.11, 115333 (2009)
17. Avotina Ye.S., Kolesnichenko Yu.A., and van Ruitenbeek J.M. Theory of oscillations in the STM conductance resulting from subsurface defects (Review Article) // Low Temp. Phys., 36, №10/11, 849 (2010)
18. Khotkevych N.V., Kolesnichenko Yu.A., and van Ruitenbeek J.M. Quantum interference effects in a system of two tunnel point-contacts in the presence of single scatterer: simulation of a double-tip STM experiment // Low Temp. Phys., 37, No.1, 53 (2011)
19. Khotkevych N.V., Kolesnichenko Yu.A., and van Ruitenbeek J.M. Conductance of a STM contact on the surface of a thin film // Low. Temp. Phys., 38, No.6, 503 (2012)
20. Khotkevych N.V., Kolesnichenko Yu.A., and van Ruitenbeek J.M. Fermi surface contours obtained from scanning tunneling microscope images around surface point defects // New Journal of Physics 15 123013 (17pp) (2013)
21. Khotkevych N.V., Kolesnichenko Yu.A. Tunneling of Bloch electrons through a small-size contact // Physica E 59 133–138 (2014)
22. Khotkevych N.V., Vovk N.R., and Kolesnichenko Yu.A. The possibility of determining the spin-orbit interaction constants using scanning tunneling microscopy // Low Temperature Physics 42, 298 (2016)
23. Kozlov I.V. and Коlesnichenkо Yu.А. Anisotropic Friedel oscillations in a two-dimensional electron gas with a Rashba–Dresselhaus spin–orbit interaction. Low Temperature Physics. 2017. 43 (7), 855 https://doi.org/10.1063/1.4995636
24. Kozlov I.V., Kolesnichenko Yu.A. Friedel oscillations in 2D electron gas from spin-orbit interaction in a parallel magnetic field. Low Temperature Physics. 2018. 44(12), 1299 https://doi.org/10.1063/1.5078625
25. Kozlov I.V., Kolesnichenko Yu.A. Magnetic field driven topological transitions in the noncentrosymmetric energy spectrum of the two-dimensional electron gas with Rashba-Dresselhaus spin-orbit interaction. Physical Review B. 2019. 99, 085129 https://doi.org/10.1103/PhysRevB.99.085129