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Andrew M. Weiner

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Andrew Marc Weiner
Born(1958-07-25)July 25, 1958
DiedFebruary 13, 2024(2024-02-13) (aged 65)
NationalityAmerican
Alma materMassachusetts Institute of Technology (SB, 1979), (SM, 1981), (Sc.D., 1984)
Known forPioneering work on programmable femtosecond pulse shaping using liquid crystal modulator arrays
AwardsHertz Foundation Doctoral Thesis Prize (1984)[1]
Bellcore Award of Excellence (1988)
Adolph Lomb Medal (1990)
Curtis McGraw Research Award (1997)
International Commission for Optics Prize (1997)[2]
IEEE Photonics Society William Streifer Scientific Achievement Award (1999)
Alexander von Humboldt Foundation Research Award for Senior U.S. Scientists (2000)
Research Excellence Award from the Schools of Engineering (2003)
Optical Society of America R. W. Wood Prize (2008)
Provost's Outstanding Graduate Student Mentor Award (2008)
IEEE Photonics Society Quantum Electronics Award (2011)[3]
Herbert Newby Mccoy Award (2013)[4]
Scientific career
FieldsUltrafast optics and optical signal processing
InstitutionsPurdue University
Thesis Femtosecond Optical Pulse Generation and Dephasing Measurements in Condensed Matter  (1984)

Andrew Marc Weiner OSA NAE NAI (Born July 25, 1958-2024) was an American electrical engineer, educator and researcher known for contributions to the fields of ultrafast optics and optical signal processing. He was the Scifres Family Distinguished Professor of Electrical and Computer Engineering at Purdue University.

Career

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Weiner received a Sc.D. in electrical engineering in 1984 from the Massachusetts Institute of Technology.[5] Following graduation he joined Bellcore, then a premier telecommunications research and development company, eventually serving as Manager of Ultrafast Optics and Optical Signal Processing Research. In 1992, Weiner was appointed at professor rank at the School of Electrical and Computer Engineering at Purdue University.

Weiner’s research in ultrafast optics focuses on the processing of extremely high-speed lightwave signals as well as their application to the generation and manipulation of ultrabroadband radio-frequency signals. He is most well-known for research on the development of Fourier synthesis methods for controlling the shape of femtosecond light pulses.[6][7][8] These methods extend femtosecond pulse generation technology by providing the ability to engineer these pulses into complex phase- and amplitude-modulated ultrafast optical waveforms according to specification. Findings from Weiner’s research have been applied in fiber optic networks and in ultrafast optical science laboratories around the world. Specific studies in recent years address quantum photonics,[9][10][11] Kerr comb generation in on-chip microresonators,[12][13][14] and microwave and millimeter wave photonics.[15][16][17] Weiner authored the textbook Ultrafast Optics (Wiley, 2009), and served as editor in chief of Optics Express, the largest journal broadly covering optics and photonics, from 2013 to 2018.[18]

Awards and honors

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In 2008, Weiner was elected to the U.S. National Academy of Engineering, “for contributions to the development of femtosecond optical-pulse shaping technology.”[19] He is a Fellow of the National Academy of Inventors (2016),[20] the Optical Society of America (1990)[21] and the Institute of Electrical and Electronics Engineers (IEEE) (1995).[22] He received a National Security Science and Engineering Fellowship, now called the Vannevar Bush Faculty Fellowship,[23] from the U.S. Department of Defense in 2009.[24] He has received the Optical Society of America’s Adolph Lomb Medal (1990) in recognition of his early career achievements,[25] the International Commission for Optics Prize (1997),[26] the Alexander von Humboldt Foundation Research Award for Senior U.S. Scientists (2000),[27] the IEEE Photonics Society’s Quantum Electronics Award (2011),[28] and Optica's Charles Hard Townes Medal (2023).[29] Weiner is the co-recipient (with Jonathan Heritage) of both the Optical Society of America’s R. W. Wood Prize (2008)[30] and the IEEE Photonics Society’s William Streifer Scientific Achievement Award (1999).[31] He was also recognized by Popular Science Magazine for one of the "Top 100 Inventions of 1988" for the 100-femtosecond all-optical switch.[32]

Weiner has received numerous awards from Purdue University. He was awarded the Herbert Newby McCoy Award (2013),[33] which is the most prestigious award given by the university in natural sciences.[34] He is also the inaugural recipient of the College of Engineering’s Research Award (2003).[35] In recognition of his mentorship, Weiner received the Purdue University Provost’s Award for Outstanding Graduate Mentor (2008)[36] and the College of Engineering Mentorship Award (2014).

Weiner was a Hertz Fellow at MIT[37] and a recipient of the Hertz Foundation Doctoral Thesis Prize.[38]

In addition to his technical interests, Weiner has had a lifelong interest in martial arts, and holds black belt rank in Aikido and Judo.

Publications

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  • Weiner, A. M. (2000). "Femtosecond pulse shaping using spatial light modulators". Review of Scientific Instruments. 71 (5): 1929–1960. Bibcode:2000RScI...71.1929W. doi:10.1063/1.1150614.
  • Weiner, A. M.; Heritage, J. P.; Kirschner, E. M. (1988). "High-resolution femtosecond pulse shaping". Journal of the Optical Society of America B. 5 (8): 1563. Bibcode:1988JOSAB...5.1563W. CiteSeerX 10.1.1.463.8549. doi:10.1364/JOSAB.5.001563.
  • Weiner, A.M.; Leaird, D.E.; Patel, J.S.; Wullert, J.R. (1992). "Programmable shaping of femtosecond optical pulses by use of 128-element liquid crystal phase modulator". IEEE Journal of Quantum Electronics. 28 (4): 908–920. Bibcode:1992IJQE...28..908W. doi:10.1109/3.135209.
  • Salehi, J.A.; Weiner, A.M.; Heritage, J.P. (1990). "Coherent ultrashort light pulse code-division multiple access communication systems". Journal of Lightwave Technology. 8 (3): 478–491. Bibcode:1990JLwT....8..478S. doi:10.1109/50.50743.
  • Weiner, A. M.; Leaird, D. E.; Wiederrecht, G. P.; Nelson, K. A. (1990). "Femtosecond Pulse Sequences Used for Optical Manipulation of Molecular Motion". Science. 247 (4948): 1317–1319. Bibcode:1990Sci...247.1317W. doi:10.1126/science.247.4948.1317. PMID 17843793. S2CID 31688798.
  • Aitchison, J. S.; Weiner, A. M.; Silberberg, Y.; Oliver, M. K.; Jackel, J. L.; Leaird, D. E.; Vogel, E. M.; Smith, P. W. E. (1990). "Observation of spatial optical solitons in a nonlinear glass waveguide". Optics Letters. 15 (9): 471–3. Bibcode:1990OptL...15..471A. doi:10.1364/OL.15.000471. PMID 19767979.
  • Jiang, Zhi; Huang, Chen-Bin; Leaird, Daniel E.; Weiner, Andrew M. (2007). "Optical arbitrary waveform processing of more than 100 spectral comb lines". Nature Photonics. 1 (8): 463–467. Bibcode:2007NaPho...1..463J. doi:10.1038/nphoton.2007.139.
  • Ferdous, Fahmida; Miao, Houxun; Leaird, Daniel E.; Srinivasan, Kartik; Wang, Jian; Chen, Lei; Varghese, Leo Tom; Weiner, Andrew M. (2011). "Spectral line-by-line pulse shaping of on-chip microresonator frequency combs". Nature Photonics. 5 (12): 770–776. arXiv:1103.2330. Bibcode:2011NaPho...5..770F. doi:10.1038/nphoton.2011.255. S2CID 6989904.
  • Weiner, Andrew M. (2011). "Ultrafast optical pulse shaping: A tutorial review". Optics Communications. 284 (15): 3669–3692. Bibcode:2011OptCo.284.3669W. doi:10.1016/j.optcom.2011.03.084.
  • Fan, L.; Wang, J.; Varghese, L. T.; Shen, H.; Niu, B.; Xuan, Y.; Weiner, A. M.; Qi, M. (2012). "An All-Silicon Passive Optical Diode". Science. 335 (6067): 447–450. Bibcode:2012Sci...335..447F. doi:10.1126/science.1214383. PMC 5563475. PMID 22194410.
  • Weiner, A. M.; Heritage, J. P.; Hawkins, R. J.; Thurston, R. N.; Kirschner, E. M.; Leaird, D. E.; Tomlinson, W. J. (1988). "Experimental Observation of the Fundamental Dark Soliton in Optical Fibers". Physical Review Letters. 61 (21): 2445–2448. Bibcode:1988PhRvL..61.2445W. doi:10.1103/PhysRevLett.61.2445. PMID 10039120.
  • Wu, Rui; Supradeepa, V. R.; Long, Christopher M.; Leaird, Daniel E.; Weiner, Andrew M. (2010). "Generation of very flat optical frequency combs from continuous-wave lasers using cascaded intensity and phase modulators driven by tailored radio frequency waveforms". Optics Letters. 35 (19): 3234–6. arXiv:1005.5373. Bibcode:2010OptL...35.3234W. doi:10.1364/OL.35.003234. PMID 20890344. S2CID 5852501.
  • Lin, I.S.; McKinney, J.D.; Weiner, A.M. (2005). "Photonic synthesis of broadband microwave arbitrary waveforms applicable to ultra-wideband communication". IEEE Microwave and Wireless Components Letters. 15 (4): 226–228. doi:10.1109/LMWC.2005.845698. S2CID 26298002.
  • Xue, Xiaoxiao; Xuan, Yi; Liu, Yang; Wang, Pei-Hsun; Chen, Steven; Wang, Jian; Leaird, Dan E.; Qi, Minghao; Weiner, Andrew M. (2015). "Mode-locked dark pulse Kerr combs in normal-dispersion microresonators". Nature Photonics. 9 (9): 594–600. arXiv:1404.2865. Bibcode:2015NaPho...9..594X. doi:10.1038/nphoton.2015.137. S2CID 120507153.

References

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  1. ^ "Hertz Thesis Prize". The Hertz Foundation. Retrieved 30 January 2022.
  2. ^ "AC1 Affiliated Commission Award – ICO Prize". International Union of Pure and Applied Physics. Retrieved 30 January 2022.
  3. ^ "Quantum Electronics Award Winners". IEEE Photonics Society. Retrieved 30 January 2022.
  4. ^ "2013 McCoy Award Recipient". Purdue University. Retrieved 30 January 2022.
  5. ^ "Andrew Marc Weiner". link.galegroup.com. Retrieved 2019-08-05.
  6. ^ Weiner, A. M.; Heritage, J. P.; Kirschner, E. M. (1988-08-01). "High-resolution femtosecond pulse shaping". Journal of the Optical Society of America B. 5 (8): 1563. Bibcode:1988JOSAB...5.1563W. doi:10.1364/JOSAB.5.001563. ISSN 0740-3224.
  7. ^ Weiner, A. M. (2000-05-02). "Femtosecond pulse shaping using spatial light modulators". Review of Scientific Instruments. 71 (5): 1929–1960. Bibcode:2000RScI...71.1929W. doi:10.1063/1.1150614. ISSN 0034-6748.
  8. ^ Weiner, A. M.; Leaird, D. E.; Patel, J. S.; Wullert, J. R. (1992-04-01). "Programmable shaping of femtosecond optical pulses by use of 128-element liquid crystal phase modulator". IEEE Journal of Quantum Electronics. 28 (4): 908–920. Bibcode:1992IJQE...28..908W. doi:10.1109/3.135209. ISSN 0018-9197.
  9. ^ Kues, Michael; Reimer, Christian; Lukens, Joseph M.; Munro, William J.; Weiner, Andrew M.; Moss, David J.; Morandotti, Roberto (2019-02-21). "Quantum optical microcombs" (PDF). Nature Photonics. 13 (3): 170–179. arXiv:2001.02356. Bibcode:2019NaPho..13..170K. doi:10.1038/s41566-019-0363-0. ISSN 1749-4885. S2CID 116597231.
  10. ^ Imany, Poolad; Jaramillo-Villegas, Jose A.; Odele, Ogaga D.; Han, Kyunghun; Leaird, Daniel E.; Lukens, Joseph M.; Lougovski, Pavel; Qi, Minghao; Weiner, Andrew M. (2018-01-22). "50-GHz-spaced comb of high-dimensional frequency-bin entangled photons from an on-chip silicon nitride microresonator". Optics Express. 26 (2): 1825–1840. arXiv:1707.02276. Bibcode:2018OExpr..26.1825I. doi:10.1364/OE.26.001825. ISSN 1094-4087. PMID 29401906. S2CID 119390189.
  11. ^ Lu, Hsuan-Hao; Lukens, Joseph M.; Peters, Nicholas A.; Odele, Ogaga D.; Leaird, Daniel E.; Weiner, Andrew M.; Lougovski, Pavel (2018-01-18). "Electro-Optic Frequency Beam Splitters and Tritters for High-Fidelity Photonic Quantum Information Processing". Physical Review Letters. 120 (3): 030502. arXiv:1712.03992. Bibcode:2018PhRvL.120c0502L. doi:10.1103/PhysRevLett.120.030502. ISSN 0031-9007. PMID 29400520.
  12. ^ Ferdous, Fahmida; Miao, Houxun; Leaird, Daniel E.; Srinivasan, Kartik; Wang, Jian; Chen, Lei; Varghese, Leo Tom; Weiner, Andrew M. (2011-10-09). "Spectral line-by-line pulse shaping of on-chip microresonator frequency combs". Nature Photonics. 5 (12): 770–776. arXiv:1103.2330. Bibcode:2011NaPho...5..770F. doi:10.1038/nphoton.2011.255. ISSN 1749-4885. S2CID 6989904.
  13. ^ Xue, Xiaoxiao; Xuan, Yi; Liu, Yang; Wang, Pei-Hsun; Chen, Steven; Wang, Jian; Leaird, Dan E.; Qi, Minghao; Weiner, Andrew M. (2015-08-10). "Mode-locked dark pulse Kerr combs in normal-dispersion microresonators". Nature Photonics. 9 (9): 594–600. arXiv:1404.2865. Bibcode:2015NaPho...9..594X. doi:10.1038/nphoton.2015.137. ISSN 1749-4885. S2CID 120507153.
  14. ^ Liu, Yang; Xuan, Yi; Xue, Xiaoxiao; Wang, Pei-Hsun; Chen, Steven; Metcalf, Andrew J.; Wang, Jian; Leaird, Daniel E.; Qi, Minghao (2014-09-20). "Investigation of mode coupling in normal-dispersion silicon nitride microresonators for Kerr frequency comb generation". Optica. 1 (3): 137. arXiv:1405.6225. Bibcode:2014Optic...1..137L. doi:10.1364/OPTICA.1.000137. ISSN 2334-2536. S2CID 119273765.
  15. ^ Khan, Maroof H.; Shen, Hao; Xuan, Yi; Zhao, Lin; Xiao, Shijun; Leaird, Daniel E.; Weiner, Andrew M.; Qi, Minghao (2010-01-17). "Ultrabroad-bandwidth arbitrary radiofrequency waveform generation with a silicon photonic chip-based spectral shaper". Nature Photonics. 4 (2): 117–122. Bibcode:2010NaPho...4..117K. doi:10.1038/nphoton.2009.266. ISSN 1749-4885.
  16. ^ Lin, I.S.; McKinney, J.D.; Weiner, A.M. (2005-04-11). "Photonic synthesis of broadband microwave arbitrary waveforms applicable to ultra-wideband communication". IEEE Microwave and Wireless Components Letters. 15 (4): 226–228. doi:10.1109/LMWC.2005.845698. ISSN 1531-1309. S2CID 26298002.
  17. ^ Supradeepa, V. R.; Long, Christopher M.; Wu, Rui; Ferdous, Fahmida; Hamidi, Ehsan; Leaird, Daniel E.; Weiner, Andrew M. (2012-02-05). "Comb-based radiofrequency photonic filters with rapid tunability and high selectivity". Nature Photonics. 6 (3): 186–194. arXiv:1105.0722. Bibcode:2012NaPho...6..186S. doi:10.1038/nphoton.2011.350. ISSN 1749-4885. S2CID 30315096.
  18. ^ Weiner, Andrew M. (2017-02-06). "Editorial: 20 years of Optics Express". Optics Express. 25 (3): 2994–2997. Bibcode:2017OExpr..25.2994W. doi:10.1364/OE.25.002994. ISSN 1094-4087. PMID 29519015.
  19. ^ "Dr. Andrew M. Weiner". NAE Website. Retrieved 2019-08-05.
  20. ^ Service, Purdue News. "Purdue professor Weiner elected fellow of National Academy of Inventors". www.purdue.edu. Retrieved 2019-08-05.
  21. ^ "Andrew Weiner | The Optical Society". 2019-08-05.
  22. ^ "IEEE Fellows Directory - Member Profile". IEEE. Retrieved 2019-08-05.
  23. ^ "Vannevar Bush Faculty Fellowship". basicresearch.defense.gov. Retrieved 2019-08-05.
  24. ^ "ECE professor awarded grant for Department of Defense research". news.uns.purdue.edu. Retrieved 2019-08-05.
  25. ^ "Adolph Lomb Medal - The Optical Society of America". Retrieved 2019-08-05.
  26. ^ "ICO Prize | International Commission for Optics". e-ico.org. Retrieved 2019-08-05.
  27. ^ "Alexander von Humboldt Honors - Our People - Purdue Engineering". College of Engineering - Purdue University. Retrieved 2019-08-05.
  28. ^ "Quantum Electronics Award Award Winners - IEEE Photonics Society". www.photonicssociety.org. Retrieved 2019-08-05.
  29. ^ "2023 Charles Hard Townes Medal Winner | Optica". www.optica.org. Retrieved 2024-08-12.
  30. ^ "R. W. Wood Prize | The Optical Society of America". Retrieved 2019-08-05.
  31. ^ "William Streifer Scientific Achievement Award Winners - IEEE Photonics Society". www.photonicssociety.org. Retrieved 2019-08-05.
  32. ^ Popular Science. Bonnier Corporation. 1988-12-01.
  33. ^ "Past Recipients - Office of the Executive Vice President for Research and Partnerships". www.purdue.edu. Retrieved 2019-08-05.
  34. ^ "The Herbert Newby McCoy Award - Office of the Executive Vice President for Research and Partnerships". www.purdue.edu. Retrieved 2019-08-05.
  35. ^ "Our People - Purdue Engineering". College of Engineering - Purdue University. Retrieved 2019-08-05.
  36. ^ "Recipients and Nominees - The Graduate School - Purdue University". www.purdue.edu. Retrieved 2019-08-05.
  37. ^ "Andrew M. Weiner". hertzfoundation.org. Retrieved 2019-08-05.
  38. ^ "Thesis Prize Winners". hertzfoundation.org. Retrieved 2019-08-05.
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