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 David Keane Ferry (born 1940) is the Regents' Professor of Electrical Engineering at Arizona State University (ASU), notable for his research in semiconductor devices. He received his BSEE, 1962, and MSEE, 1963, both from Texas Technical College. Ferry obtained his PhD under Arwin A. Dougal, 1966, from the University of Texas at Austin with a thesis entitled Anomalous Microwave Emission from Bulk Semiconductors. Following a postdoctoral year in Vienna (1966–67) under Karl-Heinz Seeger, he spent time at Texas Tech University (1967–73), the Office of Naval Research (1973–77), Colorado State University (1977–83), and then joined Arizona State University in 1983. He has received a number of honours including the IEEE Cledo Brunetti Award, 1999; IEEE (Phoenix) Engineer of Year, 1990; Fellow of the IEEE, 1987; Fellow of the American Physical Society, 1974; and Fellow of the Institute of Physics, 2008. His research involves the physics and simulation of semiconductor devices and quantum effects and transport in mesoscopic device structures. David Keane Ferry (born 1940) is the Regents' Professor of Electrical Engineering at Arizona State University (ASU), notable for his research in semiconductor devices. He received his BSEE, 1962, and MSEE, 1963, both from Texas Technical College. Ferry obtained his PhD under Arwin A. Dougal, 1966, from the University of Texas at Austin with a thesis entitled Anomalous Microwave Emission from Bulk Semiconductors. Following a postdoctoral year in Vienna (1966–67) under Karl-Heinz Seeger, he spent time at Texas Tech University (1967–73), the Office of Naval Research (1973–77), Colorado State University (1977–83), and then joined Arizona State University in 1983. He has received a number of honours including the IEEE Cledo Brunetti Award, 1999; IEEE (Phoenix) Engineer of Year, 1990; Fellow of the IEEE, 1987; Fellow of the American Physical Society, 1974; and Fellow of the Institute of Physics, 2008. His research involves the physics and simulation of semiconductor devices and quantum effects and transport in mesoscopic device structures.
  
 +===== Wigner Initiative Commitments =====
  
-===== Wigner-specific research =====+In 2018, he co-authored a book on [[http://iopscience.iop.org/book/978-0-7503-1671-2|The Wigner Function in Science and Technology]], a review article on [[https://aip.scitation.org/doi/10.1063/1.5046663|Recent Advances in Wigner Function Approaches]]. In 2015, he co-edited the [[http://link.springer.com/journal/10825/14/4/page/1|Special Issue on Wigner Functions in the Journal of Computational Electronics]]. He is a co-founder of the [[start|Wigner Initiative]] (where he is also in the steering committee) and the [[http://www.iue.tuwien.ac.at/iwcn2019/workshops/iw22019/index.html|International Wigner Workshop (IW2)]] series (which he co-organizes).
  
-He co-edited the [[http://link.springer.com/journal/10825/14/4/page/1|special issue on Wigner functions in the Journal of Computational Electronics]], he is a member of the [[start#steering_committee|Wigner Initiative's steering committee]], and he is one of the founding members and co-organizsers of the [[http://www.iue.tuwien.ac.at/iw22017/|International Wigner Workshop (IW2)]] series. 
-==== Books and Editorships ==== 
  
-D.K. Ferry: An Introduction to Quantum Transport in Semiconductors; Pan Stanford, 2017. ISBN-13: 978-9814745864 
  
-J. Weinbub, D.K. Ferry, I. Knezevic, M. Nedjalkov, S. Selberherr: +===== Wigner-specific research =====
-[[http://www.iue.tuwien.ac.at/pdf/ib_2017/hashed_links/p54PChrcQOaqwqrCY_us.pdf|Book of Abstracts of the 2nd International Wigner Workshop (IW2)"]]; TU Wien, 2017.+
  
-D.K. Ferry, J. Weinbub: [[http://www.iue.tuwien.ac.at/pdf/ib_2015/hashed_links/p54PCkrcQOaqwqr9Y_us.pdf|Booklet of the 1st International Wigner Workshop (IW2)]]; TU Wien, 2015. 
  
-MNedjalkovJ. Weinbub, D.K. Ferry:[[http://link.springer.com/article/10.1007%2Fs10825-015-0745-6|Introduction to the Special Issue on Wigner Functions]]; Journal of Computational Electronics 14(4), 857 - 8582015doi10.1007/s10825-015-0745-6.+==== Books and Editorships ==== 
 +(selection) 
 +  * [[David KFerry]]Stephen Goodnick, and [[Josef Weinbub]][[http://www.iue.tuwien.ac.at/iwcn2019/wp-content/uploads/2019/06/IW2-2019-Book-of-Abstracts.pdf|Book of Abstracts of the 3rd International Wigner Workshop (IW2)]] (TU Wien, 2019) 
 +  * [[David K. Ferry]] and [[Mihail (Mixi) Nedjalkov]], [[http://iopscience.iop.org/book/978-0-7503-1671-2|The Wigner Function in Science and Technology]] (IOP Publishing, 2018) 
 +  * [[David KFerry]], [[https://www.crcpress.com/An-Introduction-to-Quantum-Transport-in-Semiconductors/Ferry/p/book/9789814745864|An Introduction to Quantum Transport in Semiconductors]] (Pan Stanford, 2017) 
 +  * [[Josef Weinbub]][[David K. Ferry]][[Irena Knezevic]], [[Mihail (Mixi) Nedjalkov]], and [[Siegfried Selberherr]], [[http://www.iue.tuwien.ac.at/pdf/ib_2017/hashed_links/p54PChrcQOaqwqrCY_us.pdf|Book of Abstracts of the 2nd International Wigner Workshop (IW2)]] (TU Wien, 2017) 
 +  * [[David K. Ferry]] and [[Josef Weinbub]], [[http://www.iue.tuwien.ac.at/pdf/ib_2015/hashed_links/p54PCkrcQOaqwqr9Y_us.pdf|Booklet of the 1st International Wigner Workshop (IW2)]] (TU Wien, 2015) 
 ==== Journal Articles ==== ==== Journal Articles ====
- +(selection) 
-D.K. Ferry, IWelland:[[https://link.springer.com/article/10.1007%2Fs10825-017-1094-4|Relativistic Wigner Functions in Transition Metal Dichalcogenides]]; Journal of Computational Electronics2017, in printdoi: 10.1007/s10825-017-1094-4+  * [[Mihail (Mixi) Nedjalkov]], [[Josef Weinbub]], Mauro Ballicchia, [[Siegfried Selberherr]], [[Ivan Dimov]], and [[David KFerry]], [[https://journals.aps.org/prb/abstract/10.1103/PhysRevB.99.014423|Wigner equation for general electromagnetic fields: The Weyl-Stratonovich transform]], Phys. Rev. B **99**,  014423 (2019) 
- +  * Mauro Ballicchia, [[David K. Ferry]][[Mihail (Mixi) Nedjalkov]], [[Josef Weinbub]], [[https://www.mdpi.com/2076-3417/9/7/1344|Investigating Quantum Coherence by Negative Excursions of the Wigner Quasi-Distribution]], Appl. Sci. **9**, 1344 (2019) 
-D.K. Ferry:[[http://link.springer.com/article/10.1007%2Fs10825-015-0731-z|Phase-Space Functions: Can They Give a Different View of Quantum Mechanics?]]; Journal of Computational Electronics 14(4), 864 - 868, 2015. doi: 10.1007/s10825-015-0731-z. +  * [[Josef Weinbub]] and [[David K. Ferry]], [[https://aip.scitation.org/doi/10.1063/1.5046663|Recent Advances in Wigner Function Approaches]], Appl. Phys. Rev. **5**, 041104 (2018) 
- +  * [[David K. Ferry]] and Ian Welland, [[https://link.springer.com/article/10.1007%2Fs10825-017-1094-4|Relativistic Wigner Functions in Transition Metal Dichalcogenides]], JCompElectron**17**, 110 (2018) 
-D.K. Ferry, R. Akis, R. Brunner[[http://iopscience.iop.org/article/10.1088/0031-8949/2015/T165/014010/meta|Probing the Quantum - Classical Connection with Open Quantum Dots]]; Physica Scripta 0140102015doi: 10.1088/0031-8949/2015/T165/014010. +  * [[David K. Ferry]], [[http://link.springer.com/article/10.1007%2Fs10825-015-0731-z|Phase-Space Functions: Can They Give a Different View of Quantum Mechanics?]], J. Comp. Electron. **14**, 864 (2015) 
- +  * [[David K. Ferry]], R. Akis, and R. Brunner[[http://iopscience.iop.org/article/10.1088/0031-8949/2015/T165/014010/meta|Probing the Quantum - Classical Connection with Open Quantum Dots]], PhysScript**2015**, T165 (2015) 
-X. Oriols, D.K. Ferry[[https://link.springer.com/article/10.1007%2Fs10825-013-0461-z|Quantum Transport Beyond DC]]; Journal of Computational Electronics 12317-330, 2013doi: 10.1007/s10825-013-0461-z+  * [[Xavier Oriols]] and [[David K. Ferry]], [[https://link.springer.com/article/10.1007%2Fs10825-013-0461-z|Quantum Transport Beyond DC]], JCompElectron**12**, 317 (2013) 
- +  * [[Mihail (Mixi) Nedjalkov]][[Siegfried Selberherr]][[David K. Ferry]][[Dragica Vasileska]][[Philippe Dollfus]][[Damien Querlioz]][[Ivan Dimov]]and P. Schwaha[[https://www.sciencedirect.com/science/article/pii/S0003491612001558?via%3Dihub|Physical Scales in the Wigner-Boltzmann Equation]], Ann. Phys. **328**, 220 (2012) 
-M. Nedjalkov, S. Selberherr, D.K. Ferry, D. Vasileska, P. Dollfus, D. Querlioz, I. Dimov, P. Schwaha[[https://www.sciencedirect.com/science/article/pii/S0003491612001558?via%3Dihub|Physical Scales in the Wigner-Boltzmann Equation]]; Annals of Physics 328, 220 - 237, 2012.  doi: 10.1016/j.aop.2012.10.001.  +  * [[Mihail (Mixi) Nedjalkov]][[Hans Kosina]][[Siegfried Selberherr]][[Christian Ringhofer]]and [[David K. Ferry]], [[https://journals.aps.org/prb/abstract/10.1103/PhysRevB.70.115319|Unified Particle Approach to Wigner-Boltzmann Transport in Small Semiconductor Devices]], PhysRevB **70**, 115319 (2004) 
- +  L. Shifren and [[David K. Ferry]], [[https://www.sciencedirect.com/science/article/pii/S0921452601013928?via%3Dihub|Wigner Function Quantum Monte Carlo]], Phys. Cond. Matt. **314**72 (2002) 
-M. Nedjalkov, H. Kosina, S. Selberherr, Ch. Ringhofer, D.K. Ferry[[https://journals.aps.org/prb/abstract/10.1103/PhysRevB.70.115319|Unified Particle Approach to Wigner-Boltzmann Transport in Small Semiconductor Devices]]; Physical Review B 701 - 16, 2004 doi: 10.1103/PhysRevB.70.115319.  +  L. Shifren and [[David K. Ferry]], [[https://www.sciencedirect.com/science/article/pii/S0375960101003449?via%3Dihub|Particle Monte Carlo Simulation of Wigner Function Tunneling]], PhysLettA **285**, 217 (2001
- +  * [[David K. Ferry]] and J.-R. Zhou[[https://journals.aps.org/prb/abstract/10.1103/PhysRevB.48.7944|Form of the Quantum Potential for use in Hydrodynamic Equations for Semiconductor Device Modeling]], Phys. Rev. **48**7944 (1993
-L. Shifren, D.K. Ferry[[https://www.sciencedirect.com/science/article/pii/S0921452601013928?via%3Dihub|Wigner Function Quantum Monte Carlo]]; Physica B: Condensed Matter 314, 2002. doi: 10.1016/S0921-4526(01)01392-8. +  * NKluksdahl, [[Walter Poetz]], U. Ravaioli and [[David K. Ferry]], [[https://www.sciencedirect.com/science/article/pii/0749603687901753|Wigner function study of a double quantum barrier resonant tunnelling diode]], SuperlattMicrostruct**3**, 41 (1987) 
- +  * URavaioli, M.A. Osman, [[Walter Poetz]], N. Kluksdahl and [[David K. Ferry]], [[https://www.sciencedirect.com/science/article/pii/0378436385903171|Investigation of ballistic transport through resonant-tunnelling quantum wells using wigner function approach]]", Physica B+C **134**, 36 (1985) 
-L. Shifren, D.K. Ferry[[https://www.sciencedirect.com/science/article/pii/S0375960101003449?via%3Dihub|Particle Monte Carlo Simulation of Wigner Function Tunneling]]; Physics Letters A 2852001doi: 10.1016/S0375-9601(01)00344-9. +  * [[Gerald J Iafrate]], [[Harold Grubin]], and [[David K. Ferry]], [[https://www.sciencedirect.com/science/article/pii/0375960182900974|The Wigner distribution function]], Phys. Lett. A **87**, 145 (1982) 
- +  * [[Gerald J Iafrate]], [[Harold Grubin]], and [[David K. Ferry]], [[https://jphyscol.journaldephysique.org/articles/jphyscol/abs/1981/07/jphyscol198142C737/jphyscol198142C737.html|Utilization of Quantum Distribution Functions for Ultra-Submicron Device Transport]], J. Phys. Colloques **42**, 307 (1981)
-D.K. FerryJ.-R. Zhou[[https://journals.aps.org/prb/abstract/10.1103/PhysRevB.48.7944|Form of the Quantum Potential for use in Hydrodynamic Equations for Semiconductor Device Modeling]]; Physical Review B 48, 1993. doi10.1103/PhysRevB.48.7944+
  
 ===== Affiliation(s) ===== ===== Affiliation(s) =====
  
   * Regents’ Professor Emeritus, School of Electrical, Computer, and Energy Engineering, [[http://www.asu.edu/|Arizona State University, USA]]   * Regents’ Professor Emeritus, School of Electrical, Computer, and Energy Engineering, [[http://www.asu.edu/|Arizona State University, USA]]
-===== Email ===== +
-  +
-[[ferry@asu.edu]]+
  
 ===== Additional information ===== ===== Additional information =====
david_k._ferry.1519195527.txt.gz · Last modified: 2018/02/21 06:45 by weinbub

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