Pierre Deymier
Pierre A. Deymier is a researcher in phononics,[1] acoustic metamaterial,[1] and materials science. He is a Professor of Materials Science and Engineering and previously department head at the University of Arizona.[2] He holds appointments with the applied mathematics graduate interdisciplinary program,[3] BIO5 institute, and School of Sustainable Engineered Systems at the University of Arizona. More recently, he has proposed a novel approach akin to quantum computing using the properties of phonons rather than qubits, which he has dubbed "phi-bits" or "phase-bits".[4][5]
Pierre A. Deymier | |
---|---|
Born | France |
Nationality | French |
Citizenship | USA, France |
Alma mater | MIT, University of Montpellier |
Known for | Acoustic metamaterial, Materials science, Computational materials science |
Title | Professor of Materials Science & Engineering |
Scientific career | |
Fields | Phononics, Acoustic metamaterial, Quantum computing, Materials science |
Institutions | University of Arizona |
Doctoral advisor | Gretchen Kalonji |
Doctoral students | Frank J. Cherne, Vivek Kapila, Krishna Muralidharan, Javier Carmona, Jim Bucay, Nick Swinteck, Stefan Bringuier, Abdul-Jabar Alsayoud |
Biography
Education
Deymier received his engineer's degree in materials science in 1982 from University of Montpellier in France and his Ph.D. in Materials Science & Engineering from MIT in 1985.[6] His dissertation research was focused on computational materials science. He became assistant professor of materials science & engineering at the University of Arizona in 1985.[6]
Personal life
His daughter, Alix Deymier, is a professor of biomedical engineering at the University of Connecticut.
Publications
Deymier has published over 180 peer-reviewed publications.[7] Some of his most highly cited works are:
- Deymier, P. A.(Ed.). (2013). Acoustic metamaterials and phononic crystals (Vol. 173). Springer Science & Business Media. (Cited 714 times, according to Google Scholar)
- Vasseur, J. O., Deymier, P. A.. Chenni, B., Djafari-Rouhani, B., Dobrzynski, L., & Prevost, D. (2001). Experimental and theoretical evidence for the existence of absolute acoustic band gaps in two-dimensional solid phononic crystals. Physical Review Letters, 86(14), 3012. (open access) (Cited 574 times, according to Google Scholar.)
- Sukhovich A, Merheb B, Muralidharan K, Vasseur JO, Pennec Y, Deymier PA, Page JH. Experimental and theoretical evidence for subwavelength imaging in phononic crystals. Physical review letters. 2009 Apr 17;102(15):154301 (open access) (Cited 314 times, according to Google Scholar.)
- Pennec Y, Vasseur JO, Djafari-Rouhani B, Dobrzyński L, Deymier PA. Two-dimensional phononic crystals: Examples and applications. Surface Science Reports. 2010 Aug 31;65(8):229-91. (Cited 491 times, according to Google Scholar.)
- Vasseur, J. O., Deymier, P. A. Djafari-Rouhani, B., Pennec, Y., & Hladky-Hennion, A. C. (2008). Absolute forbidden bands and waveguiding in two-dimensional phononic crystal plates. Physical Review B, 77(8), 085415. (open access) (Cited 307 times, according to Google Scholar.)
Awards
- Felix Bloch Award, 2023, International Phononics Society. The prize honors individuals who have made “outstanding and sustained contributions in the field of phononics”.[8]
References
- Deymier, Pierre (2013). Acoustic Metamaterials and Phononic Crystals. Springer Series in Solid-State Sciences. Vol. 173 (1 ed.). Berlin Heidelberg: Springer-Verlag. pp. XIV, 378. doi:10.1007/978-3-642-31232-8. ISBN 978-3-642-31231-1.
- "University of Arizona - Materials Science & Engineering Department". UA-MSE Homepage. University of Arizona. Retrieved 25 April 2019.
- "Pierre A. Deymier | Program in Applied Mathematics". appliedmath.arizona.edu. Retrieved 2019-04-25.
- Goetz, Jill (10 May 2017). "Sound Over Silicon: Computing's Wave of the Future". College of Engineering News. No. Research Faculty. University of Arizona. UA - College of Engineering. Retrieved 25 April 2019.
- Deymier, P. A.; Runge, K.; Hasan, M. A.; Lata, T. D.; Levine, J. A.; Cutillas, P. (2023-01-12). "Realizing acoustic qubit analogues with nonlinearly tunable phi-bits in externally driven coupled acoustic waveguides". Scientific Reports. 13 (1): 635. doi:10.1038/s41598-023-27427-4. ISSN 2045-2322. PMC 9837201.
- "Deymier Accepts Position as Head of New School of Sustainable Engineered Systems". College of Engineering News. University of Arizona. Retrieved 30 April 2019.
- "Publications Page". Retrieved 25 April 2019.
- "Phononics Society Recognizes UA Professor for Pioneering Role in the Field". News | College of Engineering | The University of Arizona. 2023-06-30. Retrieved 2023-07-24.