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Draft:Harish Bhaskaran

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  • Comment: Experienced editors should know better than the considerable peacock, and lack of established notability.
  • Comment: Experienced editors should know better than the considerable peacock, and lack of established notability.
  • Comment: From what I can tell, the subject of this article passes the criteria at WP:NPROF in multiple ways and they are notable. However, doing spot checks on a few sources, a lot of this seems to be unsourced original research with random sources thrown in, e.g. the entire education section and much of the career section. Please either remove this content or add a reliable source. – Isochrone (talk) 09:37, 14 April 2024 (UTC)

  • Comment: Experienced editors should know better than the considerable peacock, and lack of established notability.
Harish Bhaskaran
EmployerOxford University
Academic background
EducationBE, MS, PhD
Alma materCOEP Tech & University of Maryland, College Park
Academic work
DisciplineElectrical and Materials Engineering

Harish Bhaskaran is a British-Indian engineer and currently Professor of Applied Nanomaterials at the University of Oxford. Bhaskaran specialises in the field of nanoscale technology, including photonic or neuromorphic computing and displays.[1] He is also a Fellow of the Institution of Mechanical Engineers and a Chartered Engineer and was elected a fellow of the British Royal Academy of Engineering (RAEng) in 2023.

Education

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He obtained a Bachelor's Degree in Civil Engineering from the College of Engineering Pune.[2] He then obtained a MS in Mechanical Engineering carrying out research on packaging of MEMS systems at the University of Maryland College Park.[3]

Career

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Bhaskaran worked at IBM Research - Zurich[4] where he worked on phase change materials and novel atomic force microscopy probes, inventing the PtSi probes that have since been commercialized and creating diamond-like-carbon tips for ultra-low wear.[5][6] After a period of stay at Yale University[4], he joined the University of Exeter as a Lecturer and then in 2013 joined the University of Oxford, where he established the Advanced Nanoscale Engineering Group. He was promoted to Professor of Applied Nanomaterials in 2016. He serves as a director of the Oxford Fab.[7] From September 2023, he serves as the Associate Head for Research of the Mathematical Physical and Life Sciences Division at the University of Oxford[8]. He was the leader of the UK's Wearable and Flexible Technologies (WAFT) consortium across Oxford, Southampton and Exeter Universities and 15 industrial partners.[9]

Research

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Bhaskaran led the Oxford-based WAFT Consortium and also the research into smart windows,[10] including applications in the glazing industry.[11] The latter project was an Anglo-US project, which aims to harness the Sun's heat and use it to heat a home in the winter, but also reflect it in the summer.[12] Part of Bhaskaran's recent career is spinning out companies such as Bodle Technologies and Salience Labs from Oxford University.[13][14] Other more efficient technologies have also been developed by Bhaskaran, including producing new screen technology for devices with poor outdoor readability and high-power consumption.[15][16]

He is an inventor of the photonic non-volatile memory,[17] the photonic tensor core,[18][19] and has worked on amplitude based weight setting as the primary approach using functional phase change materials. His work on switchable photonics as part of the computational effort was instrumental in spinning out Salience Labs.[20]

References

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  1. ^ "Professor Harish Bhaskaran FREng". raeng.org.uk.
  2. ^ Bhaskaran, Harish. "Education".
  3. ^ "CALCE EPSC Graduate Student Theses (2002): Die Shear Experimental and Modeling Verification of Chip-to-Chip Bonded Microelectromechanical Systems". CALCE EPSC. 2002.
  4. ^ a b "Harish Bhaskaran". nanoeng.materials.ox.ac.uk. Retrieved 2024-04-15.
  5. ^ Bhaskaran, Harish; Gotsmann, Bernd; Sebastian, Abu; Dreschler, Ute; Lantz, Mark A.; Despont, Michel; Jaroenapibal, Papot; Carpick, Robert W.; Chen, Yun; Sridharan, Kumar (2010-01-31). "Ultralow nanoscale wear through atom-by-atom attrition in silicon-containing diamond-like carbon". Nature Nanotechnology. 5 (3): 181–185. Bibcode:2010NatNa...5..181B. doi:10.1038/nnano.2010.3. PMID 20118919.
  6. ^ Pennsylvania, University of. "Nanotechnologists form near-frictionless diamond material". phys.org.
  7. ^ "Meet the team". fab.ox.ac.uk.
  8. ^ "Academic Leadership in MPLS". www.mpls.ox.ac.uk.
  9. ^ "EPSRC WAFT Consortium".
  10. ^ "New adaptable smart window coating could help heat or cool a home and save energy". Oxford University. February 7, 2022.
  11. ^ Whipple, Tom (February 9, 2022). "Turn on the windows to keep warm". The Times.
  12. ^ "Film-coating gives windows temperature control". The Engineer. January 6, 2022.
  13. ^ O'Hear, Steve (January 29, 2018). "Oxford University spin-out Bodle scores £6M Series A for its low-powered 'reflective' display tech". TechCrunch.
  14. ^ Sparkes, Matthew (March 23, 2022). "Stretchy light-emitting plastic could be used in wearable screens". New Scientist.
  15. ^ "Flexible nano-pixel screen patented". BBC News. 10 July 2014.
  16. ^ Ardill, Lisa (December 21, 2020). "Oxford spin-out Bodle secures Series A funding extension". Silicon Republic.
  17. ^ "New Memory Chips Store Data Not with Electricity, but with Light". MIT Technology Review.
  18. ^ "Patent Center". patentcenter.uspto.gov.
  19. ^ Feldmann, J.; Youngblood, N.; Karpov, M.; Gehring, H.; Li, X.; Stappers, M.; Le Gallo, M.; Fu, X.; Lukashchuk, A.; Raja, A. S.; Liu, J.; Wright, C. D.; Sebastian, A.; Kippenberg, T. J.; Pernice, W. H. P.; Bhaskaran, H. (2021). "Parallel convolutional processing using an integrated photonic tensor core". Nature. 589 (7840): 52–58. arXiv:2002.00281. Bibcode:2021Natur.589...52F. doi:10.1038/s41586-020-03070-1. hdl:10871/124352. PMID 33408373. S2CID 211010976.
  20. ^ Cartlidge, Edwin. "Photonic Computing for Sale".


Category:Photonics Category:Nanotechnologists