1. Yu.A. Dmitriev, V.D. Melnikov, K.G. Styrov, M.A. Tumanova. EPR study of methyl radical in van-der-Waals solids. Physica B: Condensed Matter, 440, pp. 104–112 (2014). 

2. Yu.A. Dmitriev, V.D. Melnikov, K.G. Styrov, M.A. Tumanova. Complex rotational motion of CH3 in solid CO as found by EPR. Physica B: Condensed Matter, 449, pp. 25–30 (2014). 

3. Pavel Urban, Pavel Hanzelka, Vera Musilová, Tomáš Králík, Marco La Mantia, Aleš Srnkaand Ladislav Skrbek. Heat transfer in cryogenic helium gas by turbulent Rayleigh–Bénard convection in a cylindrical cell of aspect ratio 1. New Journal of Physics 16, 053042 (2014).

4. Benetis, N. P., & Dmitriev, Y. A. Anomalous EPR Intensity Distribution of the Methyl Radical Quartet Adsorbed on the Surface of Porous Materials. Comparison with Solid Gas Matrix Isolation. Journal of Physical Chemistry A, 117 (20), 4233–4250 (2013).

5. Pavel Urban, David Schmoranzer, Pavel Hanzelka, Katepalli R. Sreenivasan, and Ladislav Skrbek. Anomalous heat transport and condensation in convection of cryogenic helium. Proceedings of the National Academy of Sciences of the United States of America, 14 May 2013, vol. 110, no. 20, pp. 8036-8039 (2013).

6. P. Urban, P. Hanzelka, T. Kralik, V. Musilova, A. Srnka and L. Skrbek. Effect of Boundary Layers Asymmetry on Heat Transfer Efficiency in Turbulent Rayleigh-Bénard Convection at Very High Rayleigh Numbers. Phys. Rev. Lett. 109, 154301 (2012).  

7. Yurij A. Dmitriev and Nikolas Ploutarch Benetis. EPR Line-shape Anisotropy and Hyperfine Shift of Methyl Radicals in Solid Ne, Ar, Kr, and p-H2 Gas Matrices. J. Phys. Chem. A, 114 (39), 10732–10741 (2010).

8. P-E. Roche, F. Gauthier, R. Kaiser and J. Salort. On the triggering of the Ultimate Regime of convection New Journal of Physics, 12, 085014 (2010).

9. F. Gauthier, J. Salort, O. Bourgeois, J.-L. Garden, R. du Puits, A. Thess and P.-E. Roche. Transition on local temperature fluctuations in highly turbulent convection. Europhysics Letter, 87, 44006 (2009).

10Download the article K.J. Thompson, S-c. Liu, G. Labbe, and G.G. Ihas. Use of calorimetry to study the energy decay of quantum turbulence. Journal of Physics: Conference Series 150, 032111 (2009).

11. M. Dalban-Canassy, S.W. Van Sciver. Steady counterflow He II heat transfer through porous media. Advances in Cryogenic Engineering 55, pp.1327-1334 (2009). AIP Conference Proceedings 1218, CEC/ICMC 2009, 28 Jun — 2 Jul 2009, Tucson, Arizona, USA.

12. T.V. Chagovets, L. Skrbek. On flow of He II in Channels with ends blocked by superleaks. Journal of Low Temperature Physics 153, 162-188 (2008).

13. G.G. Ihas, G. Labbe, K.J. Thompson. Preliminary measurements on grid turbulence in liquid 4He. Journal of Low Temperature Physics 150, 384-393 (2008).

14. В.М. Лещенко. Кріоаплікатор для заморожування біологічних тканинЭлектроника и связь. Тематический выпуск «Проблемы электроники», ч. 2, 160-163 (2008).

15. Yihui Zhou, Vadim F. Mitin, Greg Labbe, Shu-chen Liu, Ridvan Adjimambetov, and Gary G. Ihas, Sub-millimeter Size Sensors for Measurements in Cryogenic Turbulence. Proc. of 24th International Conference on Low Temperature Physics, Orlando, Florida, USA, August 10-17, 2005, AIP Conference Proceedings 850, pp.1631-1632 (2006).

16. P.C. McDonald, E. Jaramillo, B. Baudouy. Thermal design of the CFRP support struts for the spatial framework of the Herschel Space ObservatoryCryogenics, 46, 298–304 (2006).

17. G.G. Ihas, V.F. Mitin, and N.S. Sullivan. Cryogenic mass gauging in a free-falling storage tankJournal of Low Temperature Physics, Vol. 134 (1-2) pp. 437-442 (2004).