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Posts Tagged ‘Physics’

Flagello to receive Zernike Award at SPIE Advanced Lithography

Friday, February 24th, 2017

Flagello-DonisDonis Flagello, president, CEO, and COO of Nikon Research Corporation of America (NRCA), will be presented with the 2017 Frits Zernike Award for Microlithography on Monday 27 February during SPIE Advanced Lithography in San Jose, California. The award, presented annually for outstanding accomplishments in microlithography technology, recognizes Flagello’s leading role in understanding and improving image formation in optical lithography for semiconductor manufacturing.

A prominent member of the industry since the early 1980s and a longtime SPIE Fellow, Flagello has primarily focused on the rigorous application of physics to lithography modeling and problem solving. Early in his career, while at IBM T.J. Watson Research Center, he developed the first practical test for measuring flare in optical lithography tools and made major contributions to high numerical aperture (NA) modeling including vector and polarization effects, and radiometric correction. At ASML he played an important role in providing analysis of aberrations for new systems and high-NA imaging effects due to polarization.

Another notable aspect of his career, Flagello’s presentations at lithography conferences and papers in various journals have inspired a better understanding of optics and resist behavior and helped drive optical lithography forward, colleagues said. “His presentations are known for their combination of humor with a deep understanding of the complex interactions between physical optics and lithographic process technology,” said David Williamson, an NRCA Fellow and previous Frits Zernike Award winner. “His combined theoretical and practical production experience and knowledge are rare in this field.”

—E.K.

Nakamura Co-Wins Nobel for Blue LEDs

Tuesday, October 7th, 2014

The Nobel Prize in Physics 2014 was awarded jointly to Isamu Akasaki, Hiroshi Amano, and Shuji Nakamura “for the invention of efficient blue light-emitting diodes which has enabled bright and energy-saving white light sources”. In the late 1980s red and green LEDs had been around for decades, but despite large programs in both academia and industry there had been almost no R&D progress in blue LEDs (this editor did process R&D in an LED fab in that era). Then Akasaki and Amano at the University of Nagoya showed work on improved p-doping in GaN due to electron irradiance, leading to p-n junctions to make diodes.

Structure of a blue LED with a InGaN/AlGaN double heterojunction [Source: S. Nakamura, T. Mukai & M. Senoh, Appl. Phys. Lett. 64, 1687 (1994)]. Structure of a blue LED with a InGaN/AlGaN double heterojunction (Source: S. Nakamura, T. Mukai & M. Senoh, Appl. Phys. Lett. 64, V1687, 1994).From 1989 to 1994, Shuji Nakamura worked at Nichia Chemicals in Tokushima, Japan where he led a small team of co-workers to achieve a quantum efficiency of 2.7% using a double heterojunction InGaN/AlGaN (see Figure). With these important first steps, the path was cleared towards the development of efficient blue LEDs and solid-state white lighting. Nakamura-sensei is now a Professor of Physics at the University of California, Santa Barbara, and co-founder of Soora Corp. where GaN-on-GaN technology is used to increase efficiency through the elimination of the buffer-layers needed with saphhire substrates. The “Tales of Nakamura” article at IEEE Spectrum provides an excellent summary of this extraordinary man’s life story, including the US$600M payout from Nichia that was reduced to US$8M by a higher court.
Incandescent light bulbs lit the 20th century; the 21st century will be lit by LED lamps with high lm/W efficiency. The most recent record is just over 300 lm/W, which can be compared to 16 for regular light bulbs and close to 70 for fluorescent lamps. As about one fourth of world electricity consumption is used for lighting purposes, the LEDs contribute to saving the Earth’s resources.
Shine on!
—E.K.


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