nanochip 2007-02-07 18:42
Nanophotonics Group
[font=Arial][size=4][color=darkgreen][b]1 NanoPhotonics Portfolio Centre, EPSRC, UK [/b][/color][/size][/font]
[url=http://www.nanophotonics.org.uk/][b][color=darkred]http://www.nanophotonics.org.uk/[/color][/b][/url]
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[table][tr][td][align=center][size=14px][b][size=4] [/size][/b][/size][size=4][size=14px][b]Professor N. I. Zheludev[/b][/size]
(Coordinating PI)
[b][url=http://www.orc.soton.ac.uk/]Optoelectronics Research Centre[/url][/b][/size][/align][/td][td][align=center][size=4][/size][/align][/td][td][align=center][size=14px][b][size=4][/size][/b][/size][/align][align=center][size=4][/size][/align][align=center][size=4][/size][/align][align=center][size=4][size=14px][b]Professor J. J. Baumberg[/b][/size]
(PI)
[b][url=http://www.phys.soton.ac.uk/]School of Physics and Astronomy[/url][/b][/size][/align][/td][/tr][/table][align=center][size=14px][b][url=http://www.soton.ac.uk/][size=4]University of Southampton[/size][/url][/b][/size][/align][align=center][size=4][/size][/align][align=center][size=4][/size][/align][align=center][b][size=4]Please follow the links to:[/size][/b][/align][align=center][b][url=http://www.nanophotonics.org.uk/niz/][size=4]Zheludev Group[/size][/url][size=4] — [/size][url=http://quantopt.phys.soton.ac.uk/][size=4]Baumberg Group[/size][/url][/b][/align][align=center][b][size=4]respectively.[/size][/b][/align][align=center][b][size=4][/size][/b] [/align][align=center][b][size=4][/size][/b][/align][align=center][b][size=4][/size][/b][/align][align=center][b][size=4][/size][/b][/align][align=left][font=Arial][size=4][color=darkgreen][/color][/size][/font][/align][align=left][font=Arial][size=4][color=darkgreen][b]2 Halas Nanophotonics Group, Rice Univ.[/b][/color][/size][/font][/align][align=left][url=http://www.ece.rice.edu/~halas/][b]http://www.ece.rice.edu/~halas/[/b][/url][/align][align=left] [/align][align=left][b][size=4]:nts[/size][/b][/align][align=left][b][size=4][/size][/b][/align][align=left][b][size=4][/size][/b][/align][align=left][size=14px][b][size=4][/size][/b][/size][/align][size=3][color=navy]The research program in Nanoengineered Photonics and Plasmonics of the Halas Group at Rice University is focused on four principal missions:
1 to design new optically active nanostructures driven by function;
2 to develop and implement new nanofabrication strategies to build, orient, and pattern these nanostructures into new materials and devices;
3 to characterize and understand the physical properties of these optically active nanostructures, devices and materials;
4 to prototype the use of optically active nanostructures in applications of potential technological and broad societal interest. [/color][/size]
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[b][font=Arial][size=4][color=#006400]3 Cornell Nanophotonics Group, Cornell Univ.[/color][/size][/font][/b]
[img]http://nanophotonics.ece.cornell.edu/top1.gif[/img]
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[size=3][color=#000080][url=http://nanophotonics.ece.cornell.edu/][size=2][b]http://nanophotonics.ece.cornell.edu/[/b][/size][/url][/color][/size]
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Nanophotonics can provide high bandwidth, high speed and ultra-small optoelectronic components. This technology has the potential to revolutionize telecommunications, computation and sensing.
We investigate the physics and application of nanoscale photonic structures. In particular we are interested in light confining structures that can slow down, enhance and manipulate light. Photonic structures can enhance light-matter interaction by orders of magnitude, enabling the devices’ optical properties to be controlled externally, either optically or electro-optically. Our group members come from a variety of disciplines such as Materials Science, Electrical Engineering, Physics, and Applied and Engineering Physics. Our expertise ranges from electromagnetism theory to materials and devices characterization and fabrication. The fabrication is done in the Cornell Nanofabrication Facility - one of the most advanced academic centers for nanofabrication.
[size=4][color=darkgreen][b]4 [/b][/color][/size][url=http://www.biochem.mpg.de/en/research/rg/hillenbrand/index.html][color=#0000ff][size=4][color=darkgreen][b]Nano-Photonics (Rainer Hillenbrand)[/b][/color][/size][/color][/url]
[url=http://www.biochem.mpg.de/en/index.html][img=135,75]http://www.biochem.mpg.de/en/images/biochem_logo.gif[/img][/url] :nst[img]http://www.biochem.mpg.de/en/research/rg/hillenbrand/absatz_1_bild_research.jpg[/img]
[url=http://www.biochem.mpg.de/en/research/rg/hillenbrand/index.html][size=2][b]http://www.biochem.mpg.de/en/research/rg/hillenbrand/index.html[/b][/size][/url]
[align=left]Independent Junior Research Group funded by the German Federal Ministry of Education and Research (BMBF) within the Young Scientist Competition in Nanotechnology 2002. Grant number 03N8705.[/align]The group develops near-field optical microscopy providing nanoscale spatial resolution independent of the wavelength. It is based on atomic force microscopy (AFM) where a sharp scanning tip is used for mechanical probing and for scattering optical near-fields (scattering-type Scanning Near-field Optical Microscopy, s-SNOM). Operating at infrared frequencies the s-SNOM allows nondestructive analysis of the local chemical composition and of structura properties with potential applications ranging from characterization of solid state surfaces to identification of single nanoparticles and macromolecules. The microscope is also applied to study electromagnetic surface waves formed by coupling of infrared light to optical lattice vibrations (phonons) in polar crystals. Besides the fundamental mechanisms of phonon-photon coupling on structured crystal surfaces we explore their potential for detecting, manipulating and transporting infrared light in subwavelength-scale dimensions (phonon photonics).
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Selected publications:[/b]
T. Taubner, D. Korobkin, Y. Urzhumov, G. Shvets, R. Hillenbrand:
"Near-field microscopy through a SiC superlens"
[url=http://www.sciencemag.org/cgi/content/abstract/313/5793/1595?maxtoshow=&HITS=10&hits=10&RESULTFORMAT=&andorexacttitleabs=and&andorexactfulltext=and&searchid=1&FIRSTINDEX=0&volume=313&firstpage=1595&resourcetype=HWCIT][color=#0000ff]Science [b]313[/b], 1595 (2006)[/color][/url]
A. Cvitkovic, N. Ocelic, J. Aizpurua, R. Guckenberger, R. Hillenbrand:
"Infrared imaging of single nanoparticles via strong field enhancement in a scanning nano-gap"
[url=http://dx.doi.org/10.1103/PhysRevLett.97.060801][color=#0000ff]Phys. Rev. Lett. [b]97[/b], 060801 (2006)[/color][/url]
N. Ocelic, R. Hillenbrand:
"Subwavelength-scale tailoring of surface phonon polaritons by focused ion beam implantation"
[url=http://www.nature.com/cgi-taf/DynaPage.taf?file=/nmat/journal/v3/n9/index.html][color=#0000ff]Nature Mater. [b]3[/b], 606-609 (2004)[/color][/url]
R. Hillenbrand, T. Taubner, F. Keilmann:
"Phonon-enhanced light-matter interaction at the nanometre scale"
[url=http://www.nature.com/nature/journal/v418/n6894/abs/nature00899.html][color=#0000ff]Nature [b]418[/b], 159-162 (2002)[/color][/url] - [url=http://wwwex.biochem.mpg.de/baumeister/spm/publications/02_Nature.pdf][color=#0000ff]free full text (pdf)[/color][/url]; see also: [url=http://wwwex.biochem.mpg.de/baumeister/spm/publications/web_nature_portal/natureportal.htm][color=#0000ff]nature physics portal[/color][/url] - research highlights
R. Hillenbrand, F. Keilmann:
"Complex optical constants on a subwavelength scale"
[url=http://prola.aps.org/abstract/PRL/v85/i14/p3029_1][color=#0000ff]Phys. Rev. Lett. [b]85[/b], 3029-3032 (2000)[/color][/url][/align]
[size=4][color=darkgreen][b]5 Tansu Group[/b][/color][/size] [size=4][color=#c0c0c0][b]Lehigh Univ. [/b][/color][/size][size=3][color=#a0a0ff][b]Lehigh MOCVD and NanoPhotonics Grou[/b]p[/color][/size]
[size=3][color=#a0a0ff][url=http://www.lehigh.edu/][img=162,74]http://www3.lehigh.edu/images/sitewide/toplogo.gif[/img][/url][url=http://www.lehigh.edu/optics][img=162,39]http://www.ece.lehigh.edu/~tansu/images/COTWave.jpg[/img][/url]:tsn [/color][/size]
[url=http://www.ece.lehigh.edu/~tansu/][b][size=2]http://www.ece.lehigh.edu/~tansu/[/size][/b][/url]
Our research laboratory is affiliated with the Center for Optical Technologies (COT) and Electrical and Computer Engineering, within in the P. C. Rossin College of Engineering and Applied Science at Lehigh University (Bethlehem, PA). Our research work is to advance the science and technology of semiconductor optoelectronics, based on low-dimensional (or semiconductor nanostructure) gain media. The pursuit of our research covers both the theoretical and experimental aspects of the physics, devices, and MOCVD growth of semiconductor optoelectronics material and devices, compound semiconductors, and low-dimensional semiconductors.
Our focus also includes the physics of semiconductor quantum wells or dots (QWs or QDs) and quantum intersubband lasers encompassing recombination mechanisms, optical gain, carrier transport, temperature characteristics, and high-speed modulation. The optoelectronics devices include, but not limited to, semiconductor lasers (edge-emitting lasers and VCSELs), semiconductor light emitting diodes, semiconductor optical amplifiers, compact biological sensors, compact semiconductor based terahertz sources, and solar cells.
The semiconductor materials utilized in our group include various novel material systems grown by metalorganic chemical vapor deposition (MOCVD) or organometallic vapor phase epitaxy (OMVPE). Selected novel low-dimensional semiconductor gain media studied in our research on GaAs and InP substrates include: dilute-nitride semiconductors, InGaAsN QW, highly-strained InGaAs QW, GaAsSb QW, dilute-nitride type-II QW, strain-compensated InGaAsP QW, and others. The device applications investigated using these novel gain media on GaAs or InP substrate include transmitters for all practical transmission windows of optical-communications systems (850-nm up to 1550-nm transmitters on GaAs), semiconductor lasers for mid-infrared applications (3000-4000 nm diode lasers on InP), high-power single-mode VCSELs, high-efficiency semiconductor solar cells on GaAs substrate, and compact coherent terahertz sources on GaAs. The semiconductor optoelectronics research on GaAs and InP substrate will be pursued primarily by utilizing the VEECO (formerly EMCORE) D-125 MOCVD reactor.
In the nitride semiconductor optoelectronics research, our research work on the GaN-based material and devices will be pursued by utilizing the newly-purchased VEECO P-75 MOCVD reactor. With the funding from the Department of Defense (DOD) Army Research Lab (ARL), our group is also starting to pursue the low-cost and compact UV (280-350 nm) light sources (LEDs / lasers) based on AlGaN-type quantum well for biological sensors for Anthrax detection (applicable for military applications). In addition to the UV light sources, our group is also currently pursuing research to realize novel efficient GaN-based visible LEDs/lasers.
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nanochip 2007-02-07 19:23
[font=Arial][size=4][color=darkgreen][b]6 [size=3][color=#ffffff][/color][/size][b][color=#3366ff][size=4][url=http://www.cpmoh.u-bordeaux.fr/PagesEquipes/Nanophotonique/Staff/page_lounis.htm][color=#3366ff]Brahim Lounis[/color][/url] [/size][/color][/b]NanoPhotonics Group, France[/b][/color][/size]
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[/font][url=http://www.cpmoh.u-bordeaux.fr/PagesEquipes/Nanophotonique/index_ang.html][b][font=Arial]http://www.cpmoh.u-bordeaux.fr/PagesEquipes/Nanophotonique/index_ang.html[/font][/b][/url]
[font=Arial][b][size=4][color=#006400][size=10pt]Our research is focussed on the optical detection, spectroscopy and analysis of single nano-objects:[/size]
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[size=10pt]Ø [/size][size=10pt]Low-temperature single-molecule spectroscopy[/size]
[size=10pt]Ø [/size][size=10pt]Single CdSe/ZnS nanocrystals spectroscopy[/size]
[size=10pt]Ø [/size][size=10pt]Photothermal detection of individual metallic nanoparticules and of non-fluorescent nano-objets[/size]
[size=10pt]Ø [/size][size=10pt]Single metallic nanoparticle imaging in cells[/size]
[size=10pt]Ø [/size][size=10pt]Dynamics of glutamate receptors in live neurons[/size][/color][/size][/b]
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[color=#006400][size=4][b]7 [color=#0000ff][u]Lorenzo Pavesi [/u][/color][color=darkgreen]Si [/color][/b][color=#006400][b]NanoPhotonics[/b] [color=darkgreen][b]Group, [/b][/color][/color][color=darkgreen][b]Italy[/b][/color][/size][/color]
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[/font][url=http://science.unitn.it/~semicon/][b][size=2][font=Arial][url=http://science.unitn.it/~semicon]http://science.unitn.it/~semicon[/url][/font][/url][/size][/b]
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[font=Arial][color=darkgreen][b][size=2][i][size=4]Running Projects[/size][/i]
[color=darkred]Silicon Nanostructures for Photonics[/color]
Porous silicon
Optical gain in silicon nanocrystals and silicon laser
Optical amplification in Erbium coupled silicon nanocrystal systems
[color=darkred]Integrated Silicon Photonics Waveguides[/color]
Optical switches
Logical Ports
[color=darkred]Complex Dielectric systems[/color] [/size][/b][/color]
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[/font][font=Arial][size=2][color=darkgreen][b]Photonic Crystals
Quasicrystals
Random multilayers
[color=darkred]Biological Gas sensors[/color] [/b][/color][/size]
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[size=2][color=darkgreen][b]Silicon nanostructures for single molecule detection [/b][/color][/size]
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[font=Arial][b]Porous silicon gas sensors
Biophotonics
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[/b][size=4][b]8 CMS-CBND NanoPhotonics[/b] [color=darkgreen][b]Group[/b][/color][/size][/font][/color][/size]
[size=2][color=darkgreen][b][size=4][url=http://www-cms.llnl.gov/about/cbnd/nanophotonics.html][font=Arial][size=2]http://www-cms.llnl.gov/about/cbnd/nanophotonics.html[/size][/font][/url][/size][/b][/color][/size]
[font=Arial][size=2][color=darkgreen][b][size=4][img=610,71]http://www-cms.llnl.gov/about/cbnd/nanophotonics_images/nanophotonics_title.gif[/img][/size][/b][/color][/size]
[/font][b][size=4][color=#006400][table=98%][tr][td][font=Arial][color=darkgreen][size=2][b][i]Our group specializes in applications of ultra-sensitive optical spectroscopy and microscopy. Our main activities include single molecule fluorescence spectroscopy, surface-enhanced Raman spectroscopy and micro-Raman spectroscopy of molecules, biological cells and crystals.[/i] [/b][/size][/color][size=2][color=darkgreen][b]Current group members[/b][/color][/size]
[/font][list][*][url=http://www-cms.llnl.gov/bios/huser.html][size=2][font=Arial][color=darkgreen][b]Thomas Huser[/b][/color][/font][/size][/url][size=2][font=Arial][color=darkgreen][b] (SCL), [/b][/color][/font][/size][email=huser1@llnl.gov][size=2][font=Arial][color=darkgreen][b]huser1@llnl.gov[/b][/color][/font][/size][/email][size=2][color=darkgreen][/color][/size][*][url=http://www-cms.llnl.gov/bios/hollars.html][size=2][font=Arial][color=darkgreen][b]Christopher W. Hollars[/b][/color][/font][/size][/url][size=2][font=Arial][color=darkgreen][b], [/b][/color][/font][/size][email=hollars1@llnl.gov][size=2][font=Arial][color=darkgreen][b]hollars1@llnl.gov[/b][/color][/font][/size][/email][size=2][color=darkgreen][/color][/size][*][url=http://www-cms.llnl.gov/bios/talley.html][size=2][font=Arial][color=darkgreen][b]Chad E. Talley[/b][/color][/font][/size][/url][size=2][font=Arial][color=darkgreen][b], [/b][/color][/font][/size][email=talley1@llnl.gov][size=2][font=Arial][color=darkgreen][b]talley1@llnl.gov[/b][/color][/font][/size][/email][size=2][color=darkgreen][/color][/size][*][size=2][font=Arial][color=darkgreen][b]Ted Laurence, [/b][/color][/font][/size][email=laurence1@llnl.gov][size=2][font=Arial][color=darkgreen][b]laurence1@llnl.gov[/b][/color][/font][/size][/email][size=2][color=darkgreen][/color][/size][/list][list=1][font=Arial][/font][/list][size=2][color=darkgreen][/color][/size]
[/td][td=1,1,8][size=2][font=Arial][color=darkgreen][b][img=15,1]http://www-cms.llnl.gov/about/mstd_images/spacer.gif[/img][/b][/color][/font][/size][/td][td=1,1,55%][color=darkgreen][font=Arial][size=2][b]Capabilities [/b][/size][/font][/color][list][*][size=2][font=Arial][color=darkgreen][b]Time-resolved fluorescence spectroscopy (fluorescence lifetime, photon anti-bunching, ultra-fast laser spectroscopy) [/b][/color][/font][/size][*][size=2][font=Arial][color=darkgreen][b]One-photon and two-photon fluorescence excitation [/b][/color][/font][/size][*][size=2][font=Arial][color=darkgreen][b]Second harmonic generation [/b][/color][/font][/size][*][size=2][font=Arial][color=darkgreen][b]Spontaneous Raman spectroscopy of microscopic and macroscopic samples [/b][/color][/font][/size][*][size=2][font=Arial][color=darkgreen][b]Coherent anti-Stokes Raman imaging [/b][/color][/font][/size][*][size=2][font=Arial][color=darkgreen][b]Confocal microscopy [/b][/color][/font][/size][*][size=2][font=Arial][color=darkgreen][b]Single molecule fluorescence spectroscopy [/b][/color][/font][/size][*][size=2][font=Arial][color=darkgreen][b]Single molecule video-rate imaging [/b][/color][/font][/size][/list][list=1][font=Arial][/font][/list][/td][/tr][/table][/color][/size][/b]
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[font=Arial][b][size=4][color=#006400]9 Prof. Tong's Nanophotonics Group, Zhejiang Univ.[/color][/size][/b]
[b][size=2][color=#006400][url=http://opt.zju.edu.cn/kxyj/nanophotonics/index.htm]http://opt.zju.edu.cn/kxyj/nanophotonics/index.htm[/url][/color][/size][/b]
[b][size=2][color=#006400][/color][/size][/b]:nts
[/font][font=Arial][size=4][color=#006400][size=2]Our group is in the Department of Optical Engineering at Zhejiang University. Our research
is mainly in the field of nanophotonics —— a new frontier created by the fusion of photonics and nanotechnology.
On the mesoscale, light-matter interaction brings forth a lot of novel phenomena that are rarely observed on the macroscale, such as evanescent wave guiding, quantum effects[/size][size=2], subwavelength confinement, surface plasmon excitation and nonlinearity enhancement.[/size][size=2] A deep understanding of these phenomena should greatly promote the progress of nanophotonics, as well as the development of future nanophotonic devices. [/size]
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[/font][size=2][color=darkgreen][font=Arial][b]Research Areas[/b]
◇纳米光子学理论基础[/font][/color][/size]
[font=Arial][size=2][color=darkgreen](Fundamentals of nanophotonics)
•亚波长尺度上的光与材料相互作用(Light-matter interaction on subwavelength scale)
•介观光学理论与计算 (Mesoscopic optics theory and simulation)
◇纳米光子结构及其表征[/color][/size][/font]
[font=Arial][size=2][color=darkgreen](Nanoscale photonic structures: fabrication and characterization)
•纳米光子结构制备 (Fabrication of nanoscale photonic structures)
•纳米光子结构特性及其表征 (Characterization of nanoscale photonic structures)
◇亚波长和纳米尺度上的光子集成、器件及应用[/color][/size][/font]
[font=Arial][size=2][color=darkgreen](Subwavelength-and nm-scale photonic integration, devices and applications)
•光通信 (Optical Communication)
•光传感 (Optical Sensors)
•光子集成技术 (Photonic Integration)[/color][/size][/font]
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[font=Arial][size=4][color=darkgreen][b]10 [/b][color=#000000][color=darkgreen][b]Prof[font=Arial]. Dietmar Knipp's[/font][/b][/color][font=Arial] [/font][/color][b]Electronic Devices and Nanophotonics group, Germany.[/b][/color][/size][/font]
[b][font=Arial][url=http://www.faculty.iu-bremen.de/dknipp/group/]http://www.faculty.iu-bremen.de/dknipp/group/[/url][/font][/b]
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[font=Arial][size=2][color=darkgreen]The research of the [b]Electronic Devices and Nanophotonics[/b] group is focused on micro- and nano- electronic and photonic devices. The major goal of the research is to develop the next generation of electronic and photonic devices bridging from the micro to the nanoscale. Potential applications of the research are in the area of flexible display media, smart cards, wireless information tags, wearable electronics, optical nanosensors and solar cells.[/color][/size][/font]
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[font=Arial][size=2][color=darkgreen][b]Sub-Wavelength Optics:[/b] With the advent of micro and nano fabrication techniques the production of nanostructured materials in the sub 100nm range became feasible. Nanostructured materials are increasingly viable for applications in the visible and near infrared region of the spectrum.[/color][/size][/font]
[font=Arial][size=2][color=darkgreen]A subwavelength nanostructured optical sensor was developed, which allows for the application as standing wave interferometer and a standing wave Fourier spectrometer. The standing wave sensor consists of an ultra thin (<50nm) semi transparent sensor. The operating principle of the sensor is based on sampling a standing wave, which formed by the interference of wave propagating in opposite directions.[/color][/size][/font]
[size=2][color=darkgreen][img=469,432]http://www.faculty.iu-bremen.de/dknipp/group/Nano%20and%20Micro%20Technology_files/resear31.jpg[/img] [/color][/size]
[font=Arial][size=2][color=darkgreen]Schematic sketch of a standing wave sensor. The sensor can be applied to build micro Fourier Spectrometers and micro Interferometers.[/color][/size][/font]
[b][size=2][color=darkgreen]Selected Publications:[/color][/size][/b]
[font=Arial][size=10pt][color=darkgreen]D. Knipp, T. Muck, A. Benor, V. Wagner,[b] H. Stiebig, D. Knipp, E. Bunte, Standing wave spectrometer, Appl. Phys. Lett., 88, 083509 (2006).[/b][/color][/size][/font]
[size=10pt][color=darkgreen]D. Knipp, H. Stiebig, S.R. Bhalotra, E. Bunte, H.L. Kung, D.A.B. Miller, Silicon based Micro-Fourier spectrometer, IEEE Transactions on Electron Devices, 52 No. 3, p. 419 (2005).[/color][/size]
[size=10pt][color=darkgreen]H. Stiebig, H. Büchner, E. Bunte, V. Mandryka, D. Knipp, G. Jäger, Standing-wave interferometer, Appl. Phys. Lett. 83, 12 (2003).[/color][/size]
[font=Arial][size=2][color=darkgreen][b]Optical color sensors arrays:[/b] Conventional digital camera chip consist of a color filter array in combination with a sensor array, which converts the incident light intensity in electrical signals for the colors red, green and blue. The application of different optical filters to separate the fundamental colors requires the side-by-side arrangement of the optical filters for red, green and blue. However, the filter arrangement leads to color moiré effects and metameric errors.[/color][/size][/font]
[font=Arial][size=2][color=darkgreen]The color moiré effect can be eliminated by the detection of the complete color information by a single color pixel. In this case the color information is detected in the depth of the device structure. Due to strong wavelength dependent absorption of the applied materials (amorphous silicon and its alloys) different colors are absorbed at different depths of the device structure.[/color][/size][/font]
[size=2][color=darkgreen][img=369,232]http://www.faculty.iu-bremen.de/dknipp/group/Nano%20and%20Micro%20Technology_files/sensor.jpg[/img] [/color][/size]
[font=Arial][size=2][color=darkgreen]Schematic cross section of a color sensor.[/color][/size][/font]
[font=Arial][size=2][color=darkgreen]The individual colors can be separated by using different device geometries and electrode configurations. For the first time a thin film sensor arrays based on such technology was realized in cooperation with the Research Center Jülich and the Palo Alto Research Center. The sensor array exhibits a resolution of of 512 x 512 pixels.[/color][/size][/font]
[b][size=2][color=darkgreen]Selected Publications:[/color][/size][/b]
[font=Arial][size=10pt][color=darkgreen]D. Knipp, T. Muck, A. Benor, V. Wagner,[b] D. Knipp, R.A. Street, H. Stiebig, M. Krause, J.-P. Lu, S. Ready, J. Ho, Vertically integrated amorphous silicon color sensor Arrays, IEEE Trans. Electron Devices, Vol. 53, Issue 7, 1551 (2006).[/b][/color][/size][/font]
[size=10pt][color=darkgreen]D. Knipp, R.A. Street, H. Stiebig, M. Krause, J.-P. Lu, S. Ready, J. Ho, Vertically integrated thin film color sensor arrays for imaging applications, Optics Express, 14, 3106 (2006).[/color][/size]
[size=10pt][color=darkgreen]H. Stiebig, R.A. Street, D. Knipp, M. Krause, J. Ho, Vertically integrated thin film color sensor arrays for advanced sensing applications, Appl. Phys. Lett. 88, 013509 (2006).[/color][/size]
[size=10pt][color=darkgreen]D. Knipp, H. Stiebig, J. Fölsch, F. Finger, H. Wagner, Amorphous silicon based nipiin structure for color detection, J. Appl. Phys. Vol. 83, No. 3, 1463 (1998).[/color][/size]
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nanochip 2007-02-07 20:29
[align=left][color=darkgreen][size=4]11 One NANOPHOTONICS GROUP, [u]University of Montpellier II - France[/u] [/size]
[/color][url=http://w3.ges.univ-montp2.fr/index_en.html][color=darkgreen]http://w3.ges.univ-montp2.fr/index_en.html[/color][/url][/align][align=left] [/align][align=left] [/align][table=300][tr][td=1,1,44][color=darkgreen][/color][/td][td=1,1,256][b][font=Verdana, Arial, Helvetica, sans-serif][color=darkgreen][url=http://w3.ges.univ-montp2.fr/presentation_en.html]GROUP INFORMATION[/url][/color][/font][/b][/td][/tr][tr][td=1,1,44][color=darkgreen][/color][/td][td=1,1,256][b][font=Verdana, Arial, Helvetica, sans-serif][color=darkgreen][url=http://w3.ges.univ-montp2.fr/cassagne/pbg_en.html]PHOTONIC CRYSTALS[/url][/color][/font][/b][/td][/tr][tr][td=1,1,44][color=darkgreen][/color][/td][td=1,1,256][b][font=Verdana, Arial, Helvetica, sans-serif][color=darkgreen][url=http://w3.ges.univ-montp2.fr/cassagne/publications.html]PUBLICATIONS[/url][/color][/font][/b][/td][/tr][tr][td=1,1,44][color=darkgreen][/color][/td][td=1,1,256][b][font=Verdana, Arial, Helvetica, sans-serif][color=darkgreen][url=http://w3.ges.univ-montp2.fr/collaborations_en.html]COLLABORATIONS[/url][/color][/font][/b][/td][/tr][tr][td=1,1,44][color=darkgreen][/color][/td][td=1,1,256][align=left][b][font=Verdana, Arial, Helvetica, sans-serif][color=darkgreen][url=http://w3.ges.univ-montp2.fr/serveurs/serveurs.html]OTHER SERVERS[/url][/color][/font][/b][/align][/td][/tr][/table][color=darkgreen]:nst
[font=Arial][size=3][b]12 DUKE [/b][font=Tahoma][size=4]NANOPHOTONICS GROUP[/size][/font][/size][/font]
[font=Arial][size=3][/size][/font]
[font=Arial][b][size=2][/size][url=http://www.ee.duke.edu/~yoshie/][size=2]http://www.ee.duke.edu/~yoshie/[/size][/url][/b][/font]
[font=Arial][size=3][/size][/font]
[font=Arial][size=3][b][size=2][img=600,150]http://www.ee.duke.edu/~yoshie/images/logo.png[/img][/size][/b][/size][/font]
[font=Arial][size=2]Our research interests focus on advancing the state of the art in the design and implementation of photonic networks, using integrated nano-devices. They encompass photonic crystals, quantum optics, nonlinear optics, optical signal detection, optical signal communication, optical signal processing, optical signal generation and energy conversion. We have a particular interest in developing new tools to fabricate nano-structures, designing devices and integrating them into photonic systems. [/size][/font]
[font=Arial][size=2][/size][/font]
[b][size=4][font=Arial]13 [/font][font=Verdana]Nano Photonics[/font] Group, [font=Arial][size=2]Amolf FOM Institute for Atomic and Molecular Physics, [/size][/font][/size][font=Arial][size=2]The Netherlands[/size][/font][/b]
[/color][size=4][color=darkgreen]:tsn
[/color][/size][size=4][url=http://www.amolf.nl/research/nano_photonics/][size=2][color=darkgreen][b]http://www.amolf.nl/research/nano_photonics/[/b][/color][/size][/url]
[/size][font=Verdana, Arial, Helvetica, sans-serif][size=4][color=darkgreen]Prof. dr. L. (Kobus) Kuipers[/color][/size][/font]
[align=left][url=http://www.amolf.nl/research/nano_photonics/fig1.html][color=darkgreen][img=409,300]http://www.amolf.nl/research/nano_photonics/fig%20kuipers_s.jpg[/img][/color][/url][/align][color=darkgreen][font=Arial, Helvetica, sans-serif][size=2][b]The central aim of the NanoPhotonics Group is the manipulation of light at the nanoscale. The goal is to explore the natural frontiers of light control, i.e. length scales of the wavelength or below and time scale approaching that of the optical cycle, i.e., in the fs regime.[/b][/size][/font]
[font=Arial, Helvetica, sans-serif][size=2]To this end nanostructured materials based on concepts from solid state physics, like photonic crystals and periodic metal structures, are used. The[i] passive[/i] control exerted over the light flow in these structures will be enhanced by tailoring the nanoscale geometry of some or all the building blocks in these photonic structures. In order to [i]actively[/i] manipulate the light we will use two strategies: on the one hand we will use nonlinear interactions so that field enhancements are exploited to control light with light, on the other hand we will use the actuation of small nano-objects to reversibly induce local geometric variations, which in turn lead to control of the optical response. Central to the experimental approach are spatially- and time-resolved measurements of the light flow carried out with sub-wavelength resolution with our unique pulse tracking near-field microscope.[/size][/font]
[/color]
nanochip 2007-03-03 20:17
[size=5][color=darkgreen][b]Research Groups[/b][/color][/size]
[size=4][color=darkgreen]working on optics of nanostructured surfaces.[/color][/size]
[size=4][color=darkgreen][/color][/size]
[url=http://www.thz-photonics.com/][size=4][color=darkgreen]Aachen University[/color][/size][/url][size=4][color=darkgreen], Institute of semiconductor technology, Aachen, Germany
J. Gómez Rivas[/color][/size]
[url=http://physics.auc.dk/%7Esergey][size=4][color=darkgreen]Aalborg University[/color][/size][/url][size=4][color=darkgreen], Aalborg, Denmark
S.I Bozhevolnyi[/color][/size]
[url=http://www.ure.cas.cz/dpt130/][size=4][color=darkgreen]Academy of Sciences of the Czech Republic[/color][/size][/url][size=4][color=darkgreen], Prague, Czech Republic
J. Ctyroky [/color][/size]
[url=http://unit.aist.go.jp/can-for/][size=4][color=darkgreen]AIST CAN-FOR[/color][/size][/url][size=4][color=darkgreen] (National Institute of Advanced Industrial Science and Technology -- Center for Applied Near-Field Optics Research), Tsukuba, Japan
J. Tominaga[/color][/size]
[url=http://www.nat.vu.nl/%7Etvisser/][size=4][color=darkgreen]Vrije Universiteit Amsterdam[/color][/size][/url][size=4][color=darkgreen], Amsterdam, The Netherlands
T. Visser[/color][/size]
[url=http://www.arinnaresearch.com/][size=4][color=darkgreen]Arinna LLC[/color][/size][/url][size=4][color=darkgreen], Princeton NJ, USA
T. Thio[/color][/size]
[url=http://www.nano-optics.ch/home.html][size=4][color=darkgreen]Universität Basel[/color][/size][/url][size=4][color=darkgreen], Basel, Switzerland
H.-J. Güntherodt
B. Hecht
D. Pohl [/color][/size]
[url=http://imfc.univ-fcomte.fr/lopmd/index.html][size=4][color=darkgreen]Besançon[/color][/size][/url][size=4][color=darkgreen] (CNRS, Laboratoire d'Optique P.M. Duffieux, Université de Franche-Comté), Besançon, France
D. Van Labeke[/color][/size]
[url=http://www.fen.bilkent.edu.tr/%7Eozbay/][size=4][color=darkgreen]Bilkent University[/color][/size][/url][size=4][color=darkgreen], Ankara, Turkey
E. Ozbay[/color][/size]
[url=http://www.u-bourgogne.fr/LPUB/opsub/optique.htm][size=4][color=darkgreen]Université de Bourgogne[/color][/size][/url][size=4][color=darkgreen], Dijon, France
A. Dereux[/color][/size]
[url=http://www.theory.nipne.ro/NLO/][size=4][color=darkgreen]Bucharest University[/color][/size][/url][size=4][color=darkgreen], Bucharest, Romania
D. Mihalache [/color][/size]
[url=http://www.optics.bas.bg/][size=4][color=darkgreen]Bulgarian Academy of Sciences[/color][/size][/url][size=4][color=darkgreen], Sofia, Bulgaria
P. Sharlandjiev
D. Nazarova [/color][/size]
[url=http://daedalus.caltech.edu/][size=4][color=darkgreen]California Institute of Technology[/color][/size][/url][size=4][color=darkgreen], Pasadena CA, USA
H.A. Atwater
H.J. Lezec[/color][/size]
[url=http://www.cemes.fr/][size=4][color=darkgreen]CEMES (CNRS)[/color][/size][/url][size=4][color=darkgreen], Toulouse, France
Ch. Girard[/color][/size]
[url=http://www.icmm.csic.es/mnv/][size=4][color=darkgreen]CSIC - Materials Science Institute of Madrid,[/color][/size][/url][size=4][color=darkgreen] Madrid, Spain
M. Nieto-Vesperinas[/color][/size]
[url=http://www.iem.cfmac.csic.es/departamentos/espvib_procmult/jsanchez.htm][size=4][color=darkgreen]CSIC - Institute of the Structure of Matter[/color][/size][/url][size=4][color=darkgreen], Madrid, Spain
J.A. Sanchez-Gil[/color][/size]
[url=http://www.physics.uci.edu/faculty/maradudin.html][size=4][color=darkgreen]University of California[/color][/size][/url][size=4][color=darkgreen], Irvine, Irvine CA, USA
A.A. Maradudin [/color][/size]
[url=http://www.elec.canterbury.ac.nz/research/nest/][size=4][color=darkgreen]University of Canterbury[/color][/size][/url][size=4][color=darkgreen], Christchurch, NewZealand
R.J. Blaikie[/color][/size]
[url=http://fy.chalmers.se/%7Ekall/index.htm][size=4][color=darkgreen]Chalmers University of Technology[/color][/size][/url][size=4][color=darkgreen], Göteborg, Sweden
M. Käll[/color][/size]
[url=http://schererlab.uchicago.edu/][size=4][color=darkgreen]University of Chicago[/color][/size][/url][size=4][color=darkgreen], Chicago IL, USA
N.F. Scherer [/color][/size]
[url=http://www.colorado.edu/Chemistry/grad/faculty/Rowlen/Rowlen.html%0D][size=4][color=darkgreen]University of Colorado[/color][/size][/url][size=4][color=darkgreen], Boulder CO, USA
K.L. Rowlen [/color][/size]
[url=http://www.iapp.de/][size=4][color=darkgreen]Technische Universität Dresden[/color][/size][/url][size=4][color=darkgreen], Dresden, Germany
K. Leo
L. Eng
M. Helm[/color][/size]
[url=http://www.nano-optics.ethz.ch/][size=4][color=darkgreen]ETH[/color][/size][/url][size=4][color=darkgreen], Zürich, Switzerland
V. Sandoghdar[/color][/size]
[url=http://newton.ex.ac.uk/research/emag.html][size=4][color=darkgreen]University of Exeter[/color][/size][/url][size=4][color=darkgreen], Exeter, UK
J.R. Sambles
W.L. Barnes[/color][/size]
[url=http://www.amolf.nl/research/opto_electronic_materials/][size=4][color=darkgreen]FOM Institute AMOLF[/color][/size][/url][size=4][color=darkgreen], Amsterdam, The Netherlands
A. Polman
L. Kuipers[/color][/size]
[url=http://www.loe.u-3mrs.fr/][size=4][color=darkgreen]Institut Fresnel[/color][/size][/url][size=4][color=darkgreen], Marseille, France
D. Maystre[/color][/size]
[url=http://www.phy-astr.gsu.edu/][size=4][color=darkgreen]Georgia State University[/color][/size][/url][size=4][color=darkgreen], Atlanta GA, USA
M.I. Stockman[/color][/size]
[url=http://photonics.intec.ugent.be/research/topics.asp?ID=92][size=4][color=darkgreen]Ghent University[/color][/size][/url][size=4][color=darkgreen], Photonics Research Group, INTEC
P. Debackere [/color][/size]
[url=http://www.icfo.es/index.php?section=research3&lang=english&op=show_group&group_id=18&nick=Nanophotonics][size=4][color=darkgreen]ICFO[/color][/size][/url][size=4][color=darkgreen]-Institut de Ciències Fotòniques, Barcelona, Spain
G. Badenes[/color][/size]
[url=http://www.cmth.ph.ic.ac.uk/photonics/][size=4][color=darkgreen]Imperial College[/color][/size][/url][size=4][color=darkgreen], London, UK
J. Pendry[/color][/size]
[url=http://www.kfunigraz.ac.at/expwww/ol/ol_research.html][size=4][color=darkgreen]Karl-Franzens-University[/color][/size][/url][size=4][color=darkgreen], Graz, Austria
F.R. Ausenegg
J.R. Krenn
A. Leitner[/color][/size]
[url=http://www.lpn.cnrs.fr/en/PhotoMet.php][size=4][color=darkgreen]LPN - Laboratoire de Photonique et de Nanostructures[/color][/size][/url][size=4][color=darkgreen] (CNRS/LPN), Marcoussis, France
S. Collin
F. Pardo
J.-L. Pelouard[/color][/size]
[url=http://molphys.leidenuniv.nl/qo/research/plasmons.htm][size=4][color=darkgreen]Universiteit Leiden[/color][/size][/url][size=4][color=darkgreen], Leiden, The Netherlands
J.P. Woerdman
M.P. van Exter [/color][/size]
[url=http://www.ee.umd.edu/LaserLab/intro.html][size=4][color=darkgreen]University of Maryland[/color][/size][/url][size=4][color=darkgreen], College Park MD, USA
C. Davis
I. Smolyaninov [/color][/size]
[url=http://www.mbi-berlin.de/de/research/projects/3-02/highlights/UP1.html][size=4][color=darkgreen]Max Born Institute[/color][/size][/url][size=4][color=darkgreen], Berlin, Germany
C. Lienau
C. Ropers[/color][/size]
[url=http://lasmed.phys.msu.ru/][size=4][color=darkgreen]Moscow State University[/color][/size][/url][size=4][color=darkgreen], Moscow, Russia
M Nazarov
AP Skurinov[/color][/size]
[url=http://www.physik.uni-muenchen.de/sektion/feldmann/index_e.htm][size=4][color=darkgreen]Ludwig-Maximilians-Universität München[/color][/size][/url][size=4][color=darkgreen], Munich, Germany
J. Feldmann
T. Klar[/color][/size]
[url=http://www.uni-muenster.de/Physik/PI/Fuchs/research/snom/snom.html][size=4][color=darkgreen]University of Münster[/color][/size][/url][size=4][color=darkgreen], Münster, Germany
U.C. Fischer[/color][/size]
[size=4][color=darkgreen]Notre-Dame de la Paix - Namur, Namur, Belgium
[/color][/size][url=http://www.fundp.ac.be/%7Emsarrazi/][size=4][color=darkgreen]M. Sarrazin[/color][/size][/url]
[url=http://www.fundp.ac.be/recherche/personnes/fr/01001310.html][size=4][color=darkgreen]J.P. Vigneron[/color][/size][/url]
[url=http://www.phy.ntnu.edu.tw/%7Ewcliu/][size=4][color=darkgreen]National Taiwan Normal University[/color][/size][/url][size=4][color=darkgreen], Taipei, Taiwan
W.C. Liu[/color][/size]
[url=http://pnstl.phys.ntu.edu.tw/][size=4][color=darkgreen]National Taiwan University[/color][/size][/url][size=4][color=darkgreen], Taipei, Taiwan
D.P. Tsai[/color][/size]
[url=http://www.chem.northwestern.edu/%7Evanduyne/][size=4][color=darkgreen]Northwestern University[/color][/size][/url][size=4][color=darkgreen], Evanston IL, USA
R.P. van Duyne [/color][/size]
[url=http://www.fbs.osaka-u.ac.jp/en/seminar/25a.html][size=4][color=darkgreen]Osaka University[/color][/size][/url][size=4][color=darkgreen], Osaka, Japan
O. Nakamura
Y. Inouye
[/color][/size]
[url=http://www.skawata.com/][size=4][color=darkgreen]Osaka University[/color][/size][/url][size=4][color=darkgreen], Osaka and Riken, Tokyo, Japan
S. Kawata[/color][/size]
[url=http://dev.rcsuper.osaka-u.ac.jp/index.html][size=4][color=darkgreen]Osaka University[/color][/size][/url][size=4][color=darkgreen], Osaka, Japan
F. Miyamaru
M. Hangyo
[/color][/size]
[url=http://www-isis.u-strasbg.fr/nano/][size=4][color=darkgreen]Université Louis Pasteur[/color][/size][/url][size=4][color=darkgreen], Strasbourg, France
T.W. Ebbesen[/color][/size]
[url=http://www.ece.purdue.edu/%7Eshalaev/][size=4][color=darkgreen]Purdue University[/color][/size][/url][size=4][color=darkgreen], West Lafayette IN, USA
V.M. Shalaev[/color][/size]
[url=http://www.nano-optics.org.uk/azayats/azayats.html][size=4][color=darkgreen]Queen's University of Belfast[/color][/size][/url][size=4][color=darkgreen], Belfast, UK
A.V. Zayats[/color][/size]
[url=http://www.sci.qut.edu.au/profiles/gramotnev/][size=4][color=darkgreen]Queensland University of Technology[/color][/size][/url][size=4][color=darkgreen], Brisbane, Australia
D. K. Gramotnev
D. F. P. Pile[/color][/size]
[url=http://www-ece.rice.edu/%7Ehalas/][size=4][color=darkgreen]Rice University[/color][/size][/url][size=4][color=darkgreen], Houston TX, USA
N.J. Halas[/color][/size]
[size=4][color=darkgreen]Paul Scherrer Institut, [/color][/size][url=http://lmn.web.psi.ch/][size=4][color=darkgreen]Lab. for Micro- and Nanotechnology[/color][/size][/url][size=4][color=darkgreen], Villigen, Switzerland
Y. Ekinci[/color][/size]
[url=http://quantopt.phys.soton.ac.uk/][size=4][color=darkgreen]Southampton University[/color][/size][/url][size=4][color=darkgreen], Southampton, UK
J.J. Baumberg[/color][/size]
[url=http://mse.stanford.edu/faculty/brongersma.html][size=4][color=darkgreen]Stanford University[/color][/size][/url][size=4][color=darkgreen], Stanford CA, USA
M. Brongersma
[/color][/size]
[url=http://www.stanford.edu/group/nqp][size=4][color=darkgreen]Stanford University[/color][/size][/url][size=4][color=darkgreen], Stanford CA, USA
J. Vuckovic [/color][/size]
[url=http://www.physics.usyd.edu.au/theory/dif/dif.html][size=4][color=darkgreen]University of Sydney[/color][/size][/url][size=4][color=darkgreen], Sydney, Australia
R.C. McPhedran
L.C. Botten[/color][/size]
[url=http://www.e.tokushima-u.ac.jp/English/opt/staff.html][size=4][color=darkgreen]University of Tokushima[/color][/size][/url][size=4][color=darkgreen], Tokushima, Japan
M. Fukui
M. Haraguchi
T. Okamoto[/color][/size]
[url=http://www.jst.go.jp/erato/project/okf_P/okf_P.html][size=4][color=darkgreen]Tokyo Institute of Technology[/color][/size][/url][size=4][color=darkgreen], Tokyo, Japan
M. Ohtsu [/color][/size]
[url=http://vcsel-www.pi.titech.ac.jp/index-e.html][size=4][color=darkgreen]Tokyo Institute of Technology[/color][/size][/url][size=4][color=darkgreen], Tokyo, Japan
F. Koyama[/color][/size]
[url=http://www-lnio.utt.fr/][size=4][color=darkgreen]Université de technologie de Troyes[/color][/size][/url][size=4][color=darkgreen], Troyes, France
P.M. Adam
J.L. Bijeon
P. Royer[/color][/size]
[url=http://www.ece.utah.edu/people/faculty.html][size=4][color=darkgreen]University of Utah[/color][/size][/url][size=4][color=darkgreen], Salt Lake City UT, USA
S. Blair
A. Nahata[/color][/size]
[url=http://www.ece.uvic.ca/%7Ergordon/][size=4][color=darkgreen]University of Victoria / Simon Fraser University[/color][/size][/url][size=4][color=darkgreen] - BC, Canada
R. Gordon,
A. G. Brolo,
K. L. Kavanagh
M. Moffit,
D. Sinton,
M. A. Stuchly[/color][/size]
[url=http://www.kfti.knc.ru/eng/lab/radiat.html][size=4][color=darkgreen]Zavoisky Physical-Technical Institute, Russian Academy of Sciences[/color][/size][/url][size=4][color=darkgreen], Kazan, Russia
AL Stepanov[/color][/size]
[size=4][color=darkgreen][/color][/size]
[size=2][color=darkred][url=http://www.arinnaresearch.com/NSS/pages/groups.html]http://www.arinnaresearch.com/NSS/pages/groups.html[/url][/color][/size]
nanochip 2007-05-25 12:12
交大的微纳院
[url]http://mnri.sjtu.edu.cn/science/nanofab/nanofab.html[/url]
俄罗斯一个组 Professor Dr. Yurii E. Lozovik
[url]http://www.isan.troitsk.ru/eng/eflns.htm[/url]
tj403 2008-10-26 12:33
还有我们组里面啊 应该还能算得上不错吧 至少有nature
Prof.Edward Sargent
University of Toronto
[url]http://www.light.utoronto.ca/[/url]
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