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PfFP Lecture 21: Light II
14 Apr 2011 | | Contributor(s):: Jerry M. Woodall
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PfFP Lecture 23: Invisible Light I
14 Apr 2011 | | Contributor(s):: Jerry M. Woodall
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PfFP Lecture 24: Invisible Light II
27 Apr 2011 | | Contributor(s):: Jerry M. Woodall
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PfFP Lecture 25: Invisible Light III
14 Apr 2011 | | Contributor(s):: Jerry M. Woodall
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Photolithography (Option A)
06 Feb 2020 | | Contributor(s):: James J Marti, Nano-Link Center for Nanotechnology Education
This module presents an introduction and demonstration of photolithography, the process of copying a high-resolution pattern onto multiple substrates. Students replicate key steps in the process of photolithography and learn how these processes fit into the fabrication of micro- and nanoscale...
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PhotonicsSHA-2D: Modeling of Single-Period Multilayer Optical Gratings and Metamaterials
23 Jun 2009 | | Contributor(s):: Xingjie Ni, Zhengtong Liu, Fan Gu, Marcos Gabriel Pacheco, Joshua Borneman, Alexander V. Kildishev
Frequency domain simulation of single-period multilayer gratings and optical metamaterials upon TE/TM plane-wave incidence at arbitrary angles
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Plasmonic Metamaterials: Unusual Optics and Applications
28 Feb 2008 | | Contributor(s):: Igor Smolyaninov
Surface plasmon-polaritons (or plasmons) are collective excitations of the conduction electrons and the electromagnetic field on the surface of such good metals as gold and silver. Near the frequency of surface plasmon resonance plasmons may perceive regular dielectrics as negative index...
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Quantitative Modeling and Simulation of Quantum Dots
18 Apr 2011 | | Contributor(s):: Muhammad Usman
Quantum dots grown by self-assembly process are typically constructed by 50,000 to 5,000,000 structural atoms which confine a small, countable number of extra electrons or holes in a space that is comparable in size to the electron wavelength. Under such conditions quantum dots can be interpreted...
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Quantum Control of Light and Matter International Workshop
14 Oct 2015 | | Contributor(s):: Vladimir M. Shalaev, Chris H Greene
This kickoff workshop brings together world-class experts specializing in diverse areas such as Quantum Information & Computing, Quantum Nanophotonics & Metamaterials, as well as Quantum aspects of Atomic and Molecular Optics and Atom-like Solid State Systems.
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Robert W. Boyd
Robert Boyd was born in Buffalo, New York. He received his bachelor’s degree in physics from the Massachusetts Institute of Technology and holds a PhD in physics from the University of California...
https://nanohub.org/members/53524
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Rohit Goswami
https://nanohub.org/members/282063
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Sensitivity & Resolution of Quantum-Enhanced Imaging: Decoherence, Coherence, and Ancillas
29 Apr 2020 | | Contributor(s):: Bahaa E. A. Saleh
Outline:Brief overview of quantum-enhanced sensing & imagingQuantum limits on precision of phase measurement: combatting decoherence with ancillaQuantum limits on precision of phase-gradient measurement: Role of beam size Quantum limits on two-point resolution: coherence resurrects Rayleigh’s...
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Shouyuan Huang
I'm a Grad student in Mechanical Engineering at Purdue. I work on nanoscale energy transport esp. in thin-film and 2D materials. My expertise mainly lies in heat-transfer/fluid-flow modeling,...
https://nanohub.org/members/128201
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Soft, Biocompatible Optoelectronic Interfaces to the Brain
08 Jun 2017 | | Contributor(s):: John A. Rogers
In this talk, we will describe foundational concepts in physics and materials science for these types of technologies, in 1D, 2D and 3D architectures. Examples in system level demonstrations include experiments on freely moving animals with ‘cellular-scale’, injectable optofluidic...
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The Optical Freqency Comb: A Remarkable Tool for Metrology, Science and Medical Diagnostics
31 Dec 2008 | | Contributor(s):: John L. Hall
The Optical Frequency Comb concept and technology exploded in 1999-2000 from the synthesis of advances in independent fields of Laser Stabilization, UltraFast Lasers, and NonLinear Optical Fibers. The Comb was developed first as a method for optical frequency measurement, enabling a thousand-fold...
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Toward Quantum Enhanced Plasmonic Sensors
14 Dec 2016 | | Contributor(s):: Alberto Marino
In this talk I will describe our work towards this goal based on the interface between quantum states of light, known as twin beams, and plasmonic sensors.
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Understanding Waveguides: Light at the Nanoscale
13 Feb 2020 | | Contributor(s):: Marilyn Garza, NNCI Nano
There are three lessons for this activity that help students understand how light can travel through a waveguide for communication purposes. Students will first explore the angle of refraction. Next they will create a gelatin waveguide to explore issues associated with light and waveguides....
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Wonje Park
I am a semiconductor process architect for CMOS image sensors
https://nanohub.org/members/67692
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Xingjie Ni
Dr. Ni is the Charles H. Fetter assistant professor in the Department of Electrical Engineering at Pennsylvania State University since 2015. Prior to that, He was a postdoctoral fellow at...
https://nanohub.org/members/25052
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[Illinois] Biophotonics 2011: Nonlinear Optics
14 Jun 2012 | | Contributor(s):: Samir Sayegh
Biophotonics Summer School 2011The Biophotonics Summer School brings together from a wide variety of disciplines to teach students about the biophotonics field. In 2011, some of the topics covered included principles of biophotonics, technology and methods of investigation. The latest research...