nanoscale.blogspot.com
nanoscale views: A grand challenge for nano: Solar energy harvesting near the thermodynamic limit
http://nanoscale.blogspot.com/2015/07/a-grand-challenge-for-nano-solar-energy.html
A blog about condensed matter and nanoscale physics. Why should high energy and astro folks have all the fun? Friday, July 17, 2015. A grand challenge for nano: Solar energy harvesting near the thermodynamic limit. Earlier in the week, the US Office of Science and Technology Policy had issued a call. For "Grand Challenges" for nanotechnology for the next decade, with a deadline of July 16, including guidelines about specific points. That a response should address. Here is my shot:. That the best you can ...
jkalkman.nl
Jeroen Kalkman's huispagina
http://www.jkalkman.nl/links.html
This page contains personal links related to my work, hobbies and leisure activities. Some of the links work only with the proper IP address or connection. Oregon Medical Laser Center. Physics related Java applets.
grandidier.org
Links | Jonathan Grandidier
https://grandidier.org/links
Light-Material Interactions in Energy Conversion. The International Society for Optics and Photonics. Blog at WordPress.com. Follow “Jonathan Grandidier”. Get every new post delivered to your Inbox. Build a website with WordPress.com.
apms.caltech.edu
Applied Physics and Materials Science | Faculty
http://apms.caltech.edu/people
Department of Applied Physics and Materials Science. Harry A. Atwater, Jr. Howard Hughes Professor of Applied Physics and Materials Science; Director, Joint Center for Artificial Photosynthesis. Professor Atwater's research focuses on electronic and photonic materials and devices, photovoltaics, and materials for micromechanical devices. Paul M. Bellan. Professor of Applied Physics. Professor Bellan focuses on experimental and theoretical plasma physics. Professor Bhattacharya studies the mechanical beha...
resnick.caltech.edu
Resnick | Electricity Production
http://resnick.caltech.edu/r-electricity.php
LA Clean Energy Economy. Production of Electricity from Renewable Sources. According to the 2012 World Energy Outlook, electricity demand is projected to increase worldwide by 70% in the next two decades. Meeting this demand in an environmentally sustainable way will require cost-effective and efficient technologies that support a transition from fossil fuels to renewable energy sources. Resnick Sustainability Institute director Harry Atwater. Former Resnick Fellow and Haile Group member Rob Usiskin.
svta.com
Related Links - SVT Associates
http://www.svta.com/related-links.html
Recent Publications from Our Laboratory. III-V or II-VI MBE Systems. Metal Organic Chemical Vapor Deposition Systems. Atomic Layer Deposition Systems. Pulsed Laser Deposition Systems / Laser MBE Systems. SMART Thin Film Deposition Systems. Low Temperature Effusion Cell. High Temperature Effusion Cell. Dual Filament Effusion Cell. Single Filament Effusion Cell. EXCEL Series Effusion Cell. Valved Sources and Cracking Sources. Photovoltaic Thin Film Deposition Sources. Thermal Linear Deposition Sources.
plasmonmuri.caltech.edu
Plasmonic and Nanophotonic Networks
http://plasmonmuri.caltech.edu/news.html
Gordon Research Conference on. Plasmonics - Optics at the Nanoscale. July 23 - 28, 2006. Keene, NH, USA. Click here for topics and speakers. Chair: Prof. Albert Polman. Center for Nanophotonics, FOM-Institute AMOLF, Amsterdam, The Netherlands. Vice-chair: Prof. Harry A. Atwater. Applied Physics, California Institute of Technology, Pasadena, CA, USA. 2006 Plasmonics MURI Program Review Meeting. Tuesday, January 24, 2006. 8:30 am - 5:30 pm at Stanford University. Allen Center for Integrated Systems (CIS).
nanoscale.blogspot.com
nanoscale views: July 2015
http://nanoscale.blogspot.com/2015_07_01_archive.html
A blog about condensed matter and nanoscale physics. Why should high energy and astro folks have all the fun? Monday, July 27, 2015. What are Weyl fermions? Do they really move charge 1000x faster? Published online in Science) with experimental work from Zahid Hasan. S group at Princeton has made a splash this week. In it, they argue that they see evidence in crystals of the compound TaAs for (quasi)particles that have the properties of so-called Weyl fermions. What does this mean? To measure, in 3d and ...
plasmonmuri.caltech.edu
Plasmonic and Nanophotonic Networks
http://plasmonmuri.caltech.edu/index.html
Our objective is to enable nanophotonic components for communications and imaging systems by exploiting localized and propagating surface plasmons that access nanometer-scale wavelengths at optical frequencies. This AFOSR MURI will create:. A) a suite of plasmonic material designs. B) comprehensive design and experimental realization of subwavelength component active and passive devices and small, circuit-like networks. C) a toolbox of plasmonic network design methodologies. July 27-August 1, 2008.
