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Mark S. Lundstrom

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Mark S. Lundstrom
Born
Alexandria, Minnesota, U.S.
NationalityAmerican
Known forLundstrom model of the nanotransistor
AwardsMember, U.S. National Academy of Engineering (2009); Fellow, Institute of Electronics and Electrical Engineers (1994); Fellow, American Physical Society (2000); Fellow, American Association for the Advancement of Science (2006); Institute of Electrical and Electronics Engineers Cledo Brunetti Award (2002); Institute of Electrical and Electronics Engineers Leon K. Kirchmayer Graduate Teaching Award (2018); Semiconductor Industry Association University Researcher Award (2005); Semiconductor Research Corporation Research Excellence Award (2002); Semiconductor Research Corporation Aristotle Award (2010); Institute of Electrical and Electronics Engineers Aldert van der Ziel Award (2009); Institute of Electrical and Electronics Engineers Electron Device Society Education Award (2006); American Society of Engineering Education Frederick Emmons Terman Award (1993); Purdue University Morrill Award (2012)
Scientific career
FieldsElectronic devices and Materials
InstitutionsPurdue University
Doctoral advisorR. J. Schwartz

Mark S. Lundstrom is an American electrical engineering researcher, educator, and author. He is known for contributions to the theory, modeling, and understanding of semiconductor devices, especially nanoscale transistors,[1][2] and as the creator of the nanoHUB, a major online resource for nanotechnology.[3][4] Lundstrom is Don and Carol Scifres Distinguished Professor of Electrical and Computer Engineering and in 2020 served as Acting Dean of the College of Engineering at Purdue University, in West Lafayette, Indiana.[5]

Early life and education

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Lundstrom was born and grew up in Alexandria, Minnesota and graduated from high school in 1969.[6] He received his BEE from the University of Minnesota in 1973.[7] As an undergraduate student, he was introduced to research by working in the laboratory of Aldert van der Ziel. Lundstrom received an MSEE degree from the University of Minnesota in 1974 for research on surface acoustic wave devices. He was a Member of the Technical Staff at Hewlett Packard Corporation in Colorado where he worked on integrated circuit process development.[8] Lundstrom received his Ph.D. in Electrical Engineering from Purdue University in 1980 for research on silicon solar cells. His thesis advisor was Richard J. Schwartz, inventor of the Interdigitated Back Contact (IBC) solar cell.[9] In 1980, Lundstrom joined Purdue University.

Career

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Lundstrom’s research focuses on understanding current flow in electronic devices. He has conducted studies on the theory, modeling, and numerical simulation of charge carrier transport in semiconductor devices – especially devices with dimensions at the nanoscale.[10][11][12][13][14] He is the author of Fundamentals of Carrier Transport (Addison-Wesley, 1990),[15] the second edition of which (Cambridge Univ. Press, 2000) has become a standard reference on charge carrier transport in semiconductors.

Lundstrom’s most important contribution is a conceptual model for nanoscale transistors backed up with rigorous numerical simulations, and elaborated in his books Fundamentals of Nanotransistors (World Scientific, 2017)[16] and Nanoscale Transistors - Device Physics, Modeling and Simulation (Springer, 2006)[17] as well as numerous journal articles.[18][19] He has also contributed to the understanding, modeling and design of other semiconductor devices. His early work focused on heterostructure devices, namely solar cells[20][21][22] and bipolar transistors.[23][24][25] In 1994, with his student Greg Lush, he proposed the use of photon recycling to increase the efficiency of GaAs solar cells[26]—a concept that later produced record efficiencies in single junction solar cells.[27] His recent work extends his approach to electronic transport to thermal transport by phonons and coupled electro-thermal transport, effects that are important in the design and analysis of thermoelectric devices.[28][29][30][31][32]

In 1995 with his colleagues Nirav Kapadia and Jose A.B. Fortes, Lundstrom created PUNCH – the Purdue University Network Computing Hub,[33] which provided access to scientific simulations through a web browser, and was an early example of cloud computing. As founding director of the National Science Foundation-funded Network for Computational Nanotechnology,[34] Lundstrom created the nanoHUB in 2000. The nanoHUB has grown into a major online resource for nanoelectronics, offering researchers, educators and students online access to sophisticated electronic device simulations as well as open-content educational resources.[35][36] Most of the one million plus annual visitors to the nanoHUB access its educational resources.[37] Lundstrom is a major contributor to nanoHUB content. More than 500,000 individuals have viewed his seminars, tutorials, and courses on nanoHUB.org.[38]

In 2012, Lundstrom launched nanoHUB-U to provide free, online short courses on topics that were not yet widely taught. The goal of nanoHUB-U is to help students and working engineers acquire the breadth needed for the increasingly diverse electronics of the 21st Century – without requiring a long string of prerequisites.[39] To complement nanoHUB-U, Lundstrom established the Lessons from Nanoscience[40] Lecture Notes Series (World Scientific). In addition to bringing new content into the curriculum, the goal was to re-think the way traditional topics are understood so that working from the nanoscale to the system scale is seamless and intuitive.

On December 12, 2019, Lundstrom was named Acting Dean of the College of Engineering at Purdue University and served in that role until December 2020.[41] He currently serves as Special Advisor on Microelectronics to the Executive Vice President for Strategic Initiatives at Purdue University.[42]

Awards

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Lundstrom is the recipient of numerous awards. He was elected to the National Academy of Engineering in 2009 “For leadership in microelectronics and nanoelectronics through research, innovative education, and unique applications of cyberinfrastructure.”[43] He was elected Fellow of the Institute of Electrical and Electronics Engineers (IEEE) in 1994 and elevated to Life Fellow status in 2017. Lundstrom was elected Fellow of the American Physical Society (APS) in 2000 “For insights into the physics of carrier transport in small semiconductor devices and the development of simple, conceptual models for nanoscale transistors.”[44] He was elected Fellow of the American Association for the Advancement of Science (AAAS) in 2006 “For outstanding contributions in the area of simulating nanoscale metal-oxide-field-effect transistors, and for providing these simulations to users worldwide through the Internet.”[45] In 2014, Lundstrom was included on the Thomson Reuters Corporation's list of The World’s Most Influential Scientific Minds.[46]

Lundstrom has received two IEEE technical field awards: The 2002 IEEE Cledo Brunetti Award “For significant contributions to the understanding and innovative simulation of nano-scale electronic devices”[47] and the 2018 IEEE Leon K. Kirchmayer Graduate Teaching Award “For creating a global online community for graduate education in nanotechnology as well as teaching, inspiring, and mentoring graduate students.”[48] Lundstrom’s contributions to the semiconductor industry have been recognized by the Semiconductor Research Corporation’s Research Excellence Award (2002) “For creative, consistent contributions to the field of device physics and simulation of nanoscale MOSFETs”[49] and by the Semiconductor Industry Association’s University Researcher Award (2005).[50]

Lundstrom has also received awards for his contributions to education. He was the inaugural recipient of the IEEE Electron Device Society’s Education Award in 2006.[51] In 2010, Lundstrom received the Aristotle Award from the Semiconductor Research Corporation, which recognizes outstanding teaching in its broadest sense.[52] He received the IEEE Aldert van der Ziel Award in 2009[53] and the Frederick Emmons Terman Award from the American Society of Engineering Education in 1993.

Lundstrom’s contributions have also been recognized by Purdue University. In 2012, he received Purdue University’s Morrill Award, which is the highest honor the university confers on faculty in recognition of contributions to all three dimensions of a land grant university – teaching, research and engagement.[54] Lundstrom also received the A. A. Potter Best Teacher Award from the College of Engineering in 1996[55] and the D.D. Ewing Teaching Award from the School of Electrical Engineering in 1995.[56]

References

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  1. ^ "Mark Lundstrom - Engineering and Technology History Wiki". ethw.org. 23 April 2018. Retrieved 2019-08-19.
  2. ^ Lundstrom, Mark (September 2017). Fundamentals of Nanotransistors. Lessons from Nanoscience: A Lecture Notes Series. Vol. 06. WORLD SCIENTIFIC. doi:10.1142/9018. ISBN 9789814571722.
  3. ^ "nanoHUB.org - Simulation, Education, and Community for Nanotechnology". nanohub.org. Retrieved 2019-08-19.
  4. ^ Klimeck, Gerhard; McLennan, Michael; Brophy, Sean P.; Adams III, George B.; Lundstrom, Mark S. (September 2008). "nanoHUB.org: Advancing Education and Research in Nanotechnology". Computing in Science & Engineering. 10 (5): 17–23. Bibcode:2008CSE....10e..17K. doi:10.1109/MCSE.2008.120. ISSN 1521-9615. S2CID 2020684.
  5. ^ "Mark S. Lundstrom". Electrical and Computer Engineering - Purdue University. Retrieved 2019-08-19.
  6. ^ "Hall Of Fame Inductees". Alexandria Education Foundation. Retrieved 2019-08-19.
  7. ^ "Recipients of the Outstanding Achievement Award | University Awards and Honors". uawards.umn.edu. Archived from the original on 2018-08-01. Retrieved 2019-08-19.
  8. ^ "Prof. Mark Lundstrom". springer.com. Retrieved 2019-08-19.
  9. ^ Lammert, M.D.; Schwartz, R.J. (April 1977). "The interdigitated back contact solar cell: A silicon solar cell for use in concentrated sunlight". IEEE Transactions on Electron Devices. 24 (4): 337–342. Bibcode:1977ITED...24..337L. doi:10.1109/T-ED.1977.18738. ISSN 0018-9383. S2CID 12211582.
  10. ^ Dai, Hongjie; Lundstrom, Mark; Wang, Qian; Guo, Jing; Javey, Ali (August 2003). "Ballistic carbon nanotube field-effect transistors". Nature. 424 (6949): 654–657. Bibcode:2003Natur.424..654J. doi:10.1038/nature01797. ISSN 1476-4687. PMID 12904787. S2CID 1142790.
  11. ^ Rahman, A.; Jing Guo; Datta, S.; Lundstrom, M.S. (September 2003). "Theory of ballistic nanotransistors". IEEE Transactions on Electron Devices. 50 (9): 1853–1864. Bibcode:2003ITED...50.1853R. doi:10.1109/TED.2003.815366. ISSN 0018-9383. S2CID 6255139.
  12. ^ Lundstrom, M. (July 1997). "Elementary scattering theory of the Si MOSFET". IEEE Electron Device Letters. 18 (7): 361–363. Bibcode:1997IEDL...18..361L. doi:10.1109/55.596937. ISSN 0741-3106. S2CID 17428258.
  13. ^ Lundstrom, M.; Ren, Z. (January 2002). "Essential physics of carrier transport in nanoscale MOSFETs". IEEE Transactions on Electron Devices. 49 (1): 133–141. Bibcode:2002ITED...49..133L. doi:10.1109/16.974760.
  14. ^ Franklin, Aaron D.; Luisier, Mathieu; Han, Shu-Jen; Tulevski, George; Breslin, Chris M.; Gignac, Lynne; Lundstrom, Mark S.; Haensch, Wilfried (2012-02-08). "Sub-10 nm Carbon Nanotube Transistor". Nano Letters. 12 (2): 758–762. Bibcode:2012NanoL..12..758F. doi:10.1021/nl203701g. ISSN 1530-6984. PMID 22260387. S2CID 12194219.
  15. ^ Lundstrom, Mark (October 2000). Fundamentals of Carrier Transport. Modular Series on Solid State Devices. Vol. X (2 ed.). Cambridge University Press. doi:10.1017/CBO9780511618611. ISBN 978-0-521-63724-4.
  16. ^ Lundstrom, Mark (September 2017). Fundamentals of Nanotransistors. Lessons from Nanoscience: A Lecture Notes Series. Vol. 06. WORLD SCIENTIFIC. doi:10.1142/9018. ISBN 978-981-4571-72-2.
  17. ^ Nanoscale Transistors.
  18. ^ Anantram, M.P.; Lundstrom, M.S.; Nikonov, D.E. (September 2008). "Modeling of Nanoscale Devices". Proceedings of the IEEE. 96 (9): 1511–1550. arXiv:cond-mat/0610247. doi:10.1109/jproc.2008.927355. S2CID 8076763.
  19. ^ Guo, Jing; Datta, Supriyo; Lundstrom, Mark; Anantam, M. P. (2004). "Toward Multiscale Modeling of Carbon Nanotube Transistors". International Journal for Multiscale Computational Engineering. 2 (2): 257–276. doi:10.1615/IntJMultCompEng.v2.i2.60. ISSN 1543-1649.
  20. ^ Lundstrom, Mark S. (May 1988). "Device physics of crystalline solar cells". Solar Cells. 24 (1–2): 91–102. doi:10.1016/0379-6787(88)90039-7.
  21. ^ Wang, Xufeng; Khan, Mohammad Ryyan; Gray, Jeffery L.; Alam, Muhammad Ashraful; Lundstrom, Mark S. (April 2013). "Design of GaAs Solar Cells Operating Close to the Shockley–Queisser Limit". IEEE Journal of Photovoltaics. 3 (2): 737–744. doi:10.1109/JPHOTOV.2013.2241594. ISSN 2156-3381. S2CID 36523127.
  22. ^ Lush, Greg; Lundstrom, Mark (May 1991). "Thin film approaches for high-efficiency III–V cells". Solar Cells. 30 (1–4): 337–344. doi:10.1016/0379-6787(91)90066-X.
  23. ^ Lundstrom, M.S. (November 1986). "An Ebers-Moll model for the heterostructure bipolar transistor". Solid-State Electronics. 29 (11): 1173–1179. Bibcode:1986SSEle..29.1173L. doi:10.1016/0038-1101(86)90061-4.
  24. ^ Maziar, C.M.; Klausmeier-Brown, M.E.; Lundstrom, M.S. (August 1986). "A proposed structure for collector transit-time reduction in AlGaAs/GaAs bipolar transistors". IEEE Electron Device Letters. 7 (8): 483–485. Bibcode:1986IEDL....7..483M. doi:10.1109/EDL.1986.26447. ISSN 0741-3106. S2CID 1762567.
  25. ^ Dodd, Paul; Lundstrom, Mark (1992-07-27). "Minority electron transport in InP/InGaAs heterojunction bipolar transistors". Applied Physics Letters. 61 (4): 465–467. Bibcode:1992ApPhL..61..465D. doi:10.1063/1.107886. ISSN 0003-6951.
  26. ^ Lush, Greg; Lundstrom, Mark (May 1991). "Thin film approaches for high-efficiency III–V cells". Solar Cells. 30 (1–4): 337–344. doi:10.1016/0379-6787(91)90066-X.
  27. ^ Kayes, Brendan M.; Nie, Hui; Twist, Rose; Spruytte, Sylvia G.; Reinhardt, Frank; Kizilyalli, Isik C.; Higashi, Gregg S. (June 2011). "27.6% Conversion efficiency, a new record for single-junction solar cells under 1 sun illumination". 2011 37th IEEE Photovoltaic Specialists Conference. pp. 000004–000008. doi:10.1109/pvsc.2011.6185831. ISBN 978-1-4244-9965-6. S2CID 36964975.
  28. ^ Kim, Raseong; Datta, Supriyo; Lundstrom, Mark S. (February 2009). "Influence of dimensionality on thermoelectric device performance". Journal of Applied Physics. 105 (3): 034506–034506–6. arXiv:0811.3632. Bibcode:2009JAP...105c4506K. doi:10.1063/1.3074347. ISSN 0021-8979. S2CID 3265587.
  29. ^ Jeong, Changwook; Kim, Raseong; Luisier, Mathieu; Datta, Supriyo; Lundstrom, Mark (2010-01-15). "On Landauer versus Boltzmann and full band versus effective mass evaluation of thermoelectric transport coefficients". Journal of Applied Physics. 107 (2): 023707–023707–7. arXiv:0909.5222. Bibcode:2010JAP...107b3707J. doi:10.1063/1.3291120. ISSN 0021-8979. S2CID 28918391.
  30. ^ Jeong, Changwook; Datta, Supriyo; Lundstrom, Mark (May 2012). "Thermal conductivity of bulk and thin-film silicon: A Landauer approach". Journal of Applied Physics. 111 (9): 093708–093708–6. Bibcode:2012JAP...111i3708J. doi:10.1063/1.4710993. ISSN 0021-8979.
  31. ^ Jeong, Changwook; Datta, Supriyo; Lundstrom, Mark (April 2011). "Full dispersion versus Debye model evaluation of lattice thermal conductivity with a Landauer approach". Journal of Applied Physics. 109 (7): 073718–073718–8. Bibcode:2011JAP...109g3718J. doi:10.1063/1.3567111. ISSN 0021-8979. S2CID 24181141.
  32. ^ Maassen, Jesse; Lundstrom, Mark (2015-01-21). "Steady-state heat transport: Ballistic-to-diffusive with Fourier's law". Journal of Applied Physics. 117 (3): 035104. arXiv:1408.1631. Bibcode:2015JAP...117c5104M. doi:10.1063/1.4905590. ISSN 0021-8979. S2CID 119113639.
  33. ^ "nanoHUB.org - The Chronology of nanoHUB Middleware". nanohub.org. Retrieved 2019-08-19.
  34. ^ "NSF Award Search: Award#0228390 - Network for Computational Nanotechnology". www.nsf.gov. Retrieved 2019-08-19.
  35. ^ Klimeck, Gerhard; McLennan, Michael; Brophy, Sean P.; Adams III, George B.; Lundstrom, Mark S. (September 2008). "nanoHUB.org: Advancing Education and Research in Nanotechnology". Computing in Science & Engineering. 10 (5): 17–23. Bibcode:2008CSE....10e..17K. doi:10.1109/MCSE.2008.120. ISSN 1521-9615. S2CID 2020684.
  36. ^ Lundstrom, Mark; Klimeck, Gerhard; Adams, George; McLennan, Michael (March 2008). "HUB is where the heart is". IEEE Nanotechnology Magazine. 2 (1): 28–31. doi:10.1109/MNANO.2008.920959. ISSN 1932-4510. S2CID 10204195.
  37. ^ "nanoHUB.org - Usage: Overview". nanohub.org. Retrieved 2019-08-19.
  38. ^ "nanoHUB.org - Members: View: Mark Lundstrom". nanohub.org. Retrieved 2019-08-19.
  39. ^ "Group: nanoHUB-U ~ FAQS". nanohub.org. Retrieved 2019-08-19.
  40. ^ "Lessons from Nanoscience: A Lecture Notes Series".
  41. ^ Service, Purdue News. "Purdue names Mark Lundstrom acting dean for College of Engineering". www.purdue.edu. Retrieved 2019-12-17.
  42. ^ "Dr. Mark Lundstrom". Krach Institute for Tech Diplomacy at Purdue. Retrieved 2022-05-17.
  43. ^ "Dr. Mark S. Lundstrom". NAE Website. Retrieved 2019-08-19.
  44. ^ "APS Fellowship". www.aps.org. Retrieved 2019-08-19.
  45. ^ "Elected Fellows". American Association for the Advancement of Science. Retrieved 2019-08-19.
  46. ^ "Indiana Thinkers Make 'Most Influential Minds' List — College of Engineering". engineering.nd.edu. Retrieved 2019-08-19.
  47. ^ "IEEE CLEDO BRUNETTI AWARD RECIPIENTS" (PDF). Institute of Electrical and Electronics Engineers (IEEE). Archived from the original (PDF) on August 4, 2018. Retrieved August 10, 2019.
  48. ^ "IEEE LEON K. KIRCHMAYER GRADUATE TEACHING AWARD RECIPIENTS" (PDF). Institute of Electrical and Electronics Engineers (IEEE). Archived from the original (PDF) on December 9, 2019. Retrieved August 9, 2019.
  49. ^ "2001 Technical Excellence Award - SRC". www.src.org. Retrieved 2019-08-19.
  50. ^ "University Researcher Award - SRC". www.src.org. Retrieved 2019-08-19.
  51. ^ "Education Award - IEEE Electron Devices Society". IEEE. Retrieved 2019-08-19.[dead link]
  52. ^ "2010 Aristotle Award Winner - SRC". www.src.org. Retrieved 2019-08-19.
  53. ^ "Mark Lundstrom Receives IEEE Aldert van der Ziel Award". College of Engineering - Purdue University. Retrieved 2019-08-19.
  54. ^ "Morrill Awards - Office of the Provost - Purdue University". www.purdue.edu. Retrieved 2019-08-19.
  55. ^ "A.A. Potter Best Teacher Award". Electrical and Computer Engineering - Purdue University. Retrieved 2019-08-19.
  56. ^ "Faculty Teaching Awards". Electrical and Computer Engineering - Purdue University. Retrieved 2019-08-19.

Books

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