Проект "Термокристалл": направления международного сотрудничества
University/Industry | Country/City | QS Ranking | Person | Web page | Research focus | Key Papers |
MIT | USA, Boston | 1 | Gang Chen | http://web.mit.edu/nanoengineering/ | phonon transport | S. Huberman, R. A. Duncan, K. Chen, B. Song, V. Chiloyan, Z. Ding, A.A. Maznev, G. Chen, K. A. Nelson, “Observation of second sound in graphite at temperatures above 100 K,” Science, 364, 375-379, 2019.
A. J. Minnich, J. A. Johnson, A. J. Schmidt, K. Esfarjani, M. S. Dresselhaus, K. A. Nelson, and G. Chen, “A thermal conductivity spectroscopy technique to measure phonon mean free paths,” Physical Review Letters, 107, 095901 (1-4), 2011. |
Caltech | USA, Pasadena (Near LA) | 6 | Austin Minnich | https://www.minnich.caltech.edu/ | "Transport phenomena in semiconductiors" | "•Hua, Chengyun, and Austin J. Minnich. ""Transport regimes in quasiballistic heat conduction."" Physical Review B 89.9 (2014): 094302.
•Naik, Nachiket R., and Austin J. Minnich. ""Quasiballistic electron transport in cryogenic SiGe HBTs studied using an exact, semi-analytic solution to the Boltzmann equation."" arXiv preprint arXiv:2106.05374 (2021)." |
MIT | USA, Massachusets | 1 | Keith Nelson Group (Alex Maznev) | https://nelson.mit.edu/ | Thermal grating techniques, high frequency optical techniques, anomalous heat transport experiments | "•Huberman, Samuel, et al. ""Observation of second sound in graphite at temperatures above 100 K."" Science 364.6438 (2019): 375-379.
•Johnson, Jeremy A., et al. ""Direct measurement of room-temperature nondiffusive thermal transport over micron distances in a silicon membrane."" Physical review letters 110.2 (2013): 025901." |
Carnegie Mellon | USA, Pittsburg | 53 | Alan McGaughey | https://www.meche.engineering.cmu.edu/faculty/mcgaughey-ntpl.html | Nanoscale transport | "•McGaughey, Alan JH, and Jason M. Larkin. ""Predicting phonon properties from equilibrium molecular dynamics simulations."" Annual Review of Heat Transfer 17 (2014).
•Parrish, Kevin D., et al. ""Origins of thermal conductivity changes in strained crystals."" Physical Review B 90.23 (2014): 235201." |
McGill University | Canada, Montreal | 23 | Samuel Hubermann | https://www.mcgill.ca/chemeng/samuel-huberman | Co-author of Maznev on graphite paper, Thermal transport, Condensed matter physics, Density functional theory, Molecular dynamics, Ultrafast Spectroscopy | "•Huberman, Samuel, et al. ""Observation of second sound in graphite at temperatures above 100 K."" Science 364.6438 (2019): 375-379.
•Huberman, Samuel C., et al. ""Disruption of superlattice phonons by interfacial mixing."" Physical Review B 88.15 (2013): 155311." |
Stanford | USA, Stanford (near SF) | 3 | Kenneth E. Goodson | https://nanoheat.stanford.edu/ | Nano-heat experiments; heat conduction in carbon nanotubes | •Sood, Aditya, et al. "Quasi-ballistic thermal transport across MoS2 thin films." Nano letters 19.4 (2019): 2434-2442. |
University of California Riverside | USA, Riverside (near LA) | 403 | Alexander Balandin | https://balandingroup.ucr.edu/ | Optothermal Raman techniques, Brillouoin Scattering | •Balandin, Alexander A., et al. "Superior thermal conductivity of single-layer graphene." Nano letters 8.3 (2008): 902-907. |
TUM | Germany, Munich | 50 | Herbert Spohn (emeritus) Chair of Mathematical Physics at TUM Prof. Dr. Michael M. Wolf | http://www-m5.ma.tum.de/Allgemeines/WebHome | Theoretical description of non-equilibrium stochastic processes | •Spohn, Herbert. "The phonon Boltzmann equation, properties and link to weakly anharmonic lattice dynamics." Journal of statistical physics 124.2 (2006): 1041-1104. |
University of Illinois Urbana-Champaign | USA | 82 | David Cahill | https://matse.illinois.edu/people/profile/d-cahill | Zheng, Qiye, Li, Chunhua, Rai, Akash, Leach, Jacob H., Broido, David A., and Cahill, David G.. Thermal conductivity of GaN, 71GaN, and SiC from 150 K to 850 K. United States: N. p., 2019. Web. https://doi.org/10.1103/physrevmaterials.3.014601. | |
Imec | Belgia, Leuven | Research University | Bjorn Vermeersch | https://www.imec-int.com/en/work-at-imec/job-opportunities/multi-scale-thermal-modelling-new-rf-systems | Numerical solutions of BTE | |
Apple/Cerebras | California | - | Maria Luckyanova | https://www.linkedin.com/in/maria-luckyanova-4757631/, https://www.energyfrontier.us/newsletter/201401/everybody-engineer-interview-maria-luckyanova | Chen former student, nanoheat | Zeng, Lingping, et al. "Measuring phonon mean free path distributions by probing quasiballistic phonon transport in grating nanostructures." Scientific reports 5.1 (2015): 1-10. |
NEEL CNRS (French National Centre for Scientific Research) | France, Grenoble | Research University, no. 3 in Nature index | Oliver Bourgeois | https://neel.cnrs.fr/equipes-poles-et-services/thermodynamique-et-biophysique-des-petits-systemes-tps | Nanophononics - Phonon thermal transport at the nanoscale | "•Tavakoli, Adib, et al. ""Heat conduction measurements in ballistic 1D phonon waveguides indicate breakdown of the thermal conductance quantization."" Nature communications 9.1 (2018): 1-8.
•Heron, Jean-Savin, et al. ""Blocking phonons via nanoscale geometrical design."" Physical Review B 82.15 (2010): 155458." |