Tags: plasmonics

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  1. how to mix two different shapes of particles to obtain extinction spectrum?

    Open | Responses: 1

    i am trying to mix two or more different shapes and size of particles, and want to see the effect on extinction coefficient ? is it possible ? how to do it?

    https://nanohub.org/answers/question/2300

  2. Golden Opportunities: Gold Nanoparticles for Biomedical Applications

    14 Jan 2020 | | Contributor(s):: Catherine J. Murphy

    In this talk I will discuss how these nanoparticles are prepared, how their surface chemistry can be tuned, how apparent cytotoxicity can be traced back to reagents in the synthesis rather than the particles per se, how protein orientation can be controlled on their surfaces, how cells respond...

  3. Covalent Defects of Carbon Nanotubes: New Class of High Purity, Indistinguishable Quantum Light Sources

    02 Jan 2020 | | Contributor(s):: Han Htoon

    Finally, I will report our most recent Hong-Ou-Mandel quantum optic experiment performed on quantum defects coupled to plasmonic cavities.  We were able to realize indistinguishable single photon generation by exploiting the Purcell enhancement of the radiative decay rate of individual...

  4. Omer Yesilyurt

    Omer Yesilyurt received his B.S. degree in Electronics engineering from Istanbul Technical University, Turkey, in 2016. He obtained his MsC degree in Electrical Engineering from Middle East...

    https://nanohub.org/members/258073

  5. How Plasmonic Materials Make Light Work at Nanoscale

    16 Aug 2019 | | Contributor(s):: Alexandra Boltasseva

  6. Tailoring Mechanical Instability of Atomically-thin Materials

    27 Jun 2019 | | Contributor(s):: Sungwoo Nam

    Lecture 24

  7. Can Plasmonics Help Outpace Quantum Decoherence?

    07 Jun 2019 | | Contributor(s):: Vladimir M. Shalaev

    We discuss an unorthodox way to overcome quantum decoherence by using plasmonics that can speed up quantum processes to the extent that they outpace and thus become immune to decoherence.

  8. Mechanically-Driven Nano-Manufacturing of Atomically-Thin Origami and Kirigami Structures

    22 Apr 2019 | | Contributor(s):: Sungwoo Nam

  9. Kan Yao

    https://nanohub.org/members/225567

  10. CELL-MET Thrust Area 2 - Nanomechanics: Cell-Integrated Surface Plasmon Resonance

    08 Feb 2019 | | Contributor(s):: Maedeh Mozneb, CELL-MET ERC

    In this presentation, FIU graduate student Maedeh Mozneb explains her work on Nanomechanics in Chen-Zhong Li’s lab.

  11. Emerging Materials for Nanophotonics and Plasmonics: Roads Ahead

    01 Nov 2018 | | Contributor(s):: Alexandra Boltasseva

    In this presentation, I will discuss emerging material platforms including transparent conducting oxides, transition metal nitrides, oxides and carbides as well as two- and quasi-two-dimensional materials for future practical optical components across the fields of on-chip optics and...

  12. Al-Amin Shaikh

    https://nanohub.org/members/212643

  13. Arpit Jaiswal

    I am a grad student at University at Buffalo. I did my undergrad studies from RTMNU India. I am currently working on Graphene plasmonics.

    https://nanohub.org/members/208950

  14. Light Trapping

    06 Feb 2018 | | Contributor(s):: Atilla Ozgur Cakmak, NACK Network

    OutlineFlat solar cellsARC for flat solar cellsManifestations of Fabry Perot ResonancesLight trappingAdvantage of a nanodomeYablonovitch limitBloch modesDiffraction aided waveguiding – Mie resonancesHybridizationsPlasmonicsExamples

  15. Solar Cell Optics

    02 Feb 2018 | | Contributor(s):: Atilla Ozgur Cakmak, NACK Network

    Outline:What is Light?Light AbsorptionInteraction of Light with MatterReflection/RefractionFabry Perot resonancesWaveguidingDiffraction / Photonic CrystalsPlasmonicsMie Scattering

  16. Hybrid Nanomaterials for Tailored Light-Matter Interactions

    27 Nov 2017 | | Contributor(s):: Maiken H. Mikkelsen

    In this lecture, I will provide an overview of our recent research demonstrating tailored light-matter interactions by leveraging ultra-small plasmonic cavitites fabricated using bottom-up techniques.  Examples of our demonstrations include ultrafast spontaneous and single photon sources,...

  17. Looking Through a Sphere: Walks With Mie Theory Along Classical Optics, Plasmonics and Nanooptics

    26 Oct 2017 | | Contributor(s):: Boris Luk'yanchuk

    Here we discuss some effects in plasmonics: inverse hierarchy of optical resonances, Fano resonances and optical vortices. Other effects are related to transparent materials with relatively small refractive indices (n < 2): photonic nanojets, magnetic nanojets and super resolution nanoscopy....

  18. Nicolas Large

    Nicolas Large is an Assistant Professor of Physics at The University of Texas at San Antonio.After obtaining his B.S. and M.S. in Physics at the Paul Sabatier University of Toulouse, France, he...

    https://nanohub.org/members/173220

  19. Novel Plasmonic Materials and Nanodevices for Integrated Quantum Photonics

    19 Jun 2017 | | Contributor(s):: Mikhail Shalaginov

    This research focuses on color centers in diamond that share quantum properties with single atoms. These systems promise a path for the realization of practical quantum devices such as nanoscale sensors, single-photon sources, and quantum memories. In particular, we explored an intriguing...

  20. 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.