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Alessandro Salandrino Phones & Addresses

  • Lawrence, KS
  • Berkeley, CA
  • 10838 Heather Ridge Cir, Orlando, FL 32817 (407) 677-4278 (407) 678-8470
  • 10862 Heather Ridge Cir, Orlando, FL 32817 (407) 677-4278
  • 2200 Benjamin Franklin Pkwy, Philadelphia, PA 19130 (215) 563-7812

Work

Company: The university of kansas Aug 2014 Position: Assistant professor, eecs department

Education

Degree: Doctorates, Doctor of Philosophy School / High School: University of Central Florida 2007 to 2011

Skills

Optics • Photonics • Physics • Matlab • Simulations • Nanotechnology • Mathematica • Nonlinear Optics • Laser Physics • Signal Processing • Research • Experimentation • Fiber Optics • Comsol • Mathematical Modeling • Modeling • Simulation • Integrated Photonics • Microwave Engineering • Zemax • Cst Microwave Studio • Hfss

Languages

English • Italian • French

Interests

Fiber Optics • Optics • Integrated Photonics • Optical Communication Systems • Metamaterials • Plasmonics • Photonics • Applied Electromagnetics

Industries

Higher Education

Resumes

Resumes

Alessandro Salandrino Photo 1

Assistant Professor, Eecs Department

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Location:
Lawrence, KS
Industry:
Higher Education
Work:
The University of Kansas
Assistant Professor, Eecs Department

Uc Berkeley Aug 2011 - Jul 2014
Postdoctoral Fellow

University of Pennsylvania Nov 2003 - Jun 2007
Visiting Graduate Research Assistant
Education:
University of Central Florida 2007 - 2011
Doctorates, Doctor of Philosophy
University of Central Florida 2007 - 2010
Master of Science, Masters
Università Degli Studi Roma Tre 1997 - 2003
Master of Science, Masters, Electrical Engineering
Skills:
Optics
Photonics
Physics
Matlab
Simulations
Nanotechnology
Mathematica
Nonlinear Optics
Laser Physics
Signal Processing
Research
Experimentation
Fiber Optics
Comsol
Mathematical Modeling
Modeling
Simulation
Integrated Photonics
Microwave Engineering
Zemax
Cst Microwave Studio
Hfss
Interests:
Fiber Optics
Optics
Integrated Photonics
Optical Communication Systems
Metamaterials
Plasmonics
Photonics
Applied Electromagnetics
Languages:
English
Italian
French

Publications

Us Patents

Frequency-Modulated Coding And Data Recording And Storage Using Plasmonic Nanostructures

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US Patent:
8254227, Aug 28, 2012
Filed:
May 10, 2006
Appl. No.:
11/914275
Inventors:
Nader Engheta - Wayne PA, US
Alessandro Salandrino - Philadelphia PA, US
Assignee:
The Trustees Of The University Of Pennsylvania - Philadelphia PA
International Classification:
G11B 15/52
US Classification:
369 4735, 369 5921
Abstract:
A frequency-modulated coding and data recording and storage device that uses plasmonic-dielectric nanostructures of concentric two-layer core-shell design to store data includes a flat transparent substrate having a top surface divided into cells with side dimension d on the order of tens of nanometers and a core-shell plasmonic-dielectric nanostructure disposed in each cell. Each plasmonic nanostructure of concentric core-shell has a predetermined ratio of radii and a predetermined aspect ratio such that when an infrared or visible wavelength signal is applied to each said core-shell plasmonic-dielectric nanostructure a peak scattering amplitude of the applied signal is at different plasmonic resonance frequencies for core-shell plasmonic-dielectric nanostructures with different ratio of radii and different aspect ratios. The sampled values of a signal to be recorded are assigned to each cell and the ratio of radii and/or aspect ratios of the core-shell plasmonic-dielectric nanostructures in the assigned cells are selected to provide a corresponding plasmonic resonant frequency.

Far-Field Sub-Diffraction Optical Lenses (Fasdol)

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US Patent:
20090303578, Dec 10, 2009
Filed:
May 16, 2007
Appl. No.:
12/300948
Inventors:
Nader Engheta - Wayne PA, US
Alessandro Salandrino - Philadelphia PA, US
Brian Edwards - Philadelphia PA, US
International Classification:
G02B 1/02
G02B 3/02
G02B 3/08
H01S 3/16
G02B 21/02
US Classification:
359342, 359718, 359656
Abstract:
Far-field sub-diffraction optical lenses “FaSDOLs” comprise an anisotropic crystal having special dispersion characteristics such that it supports diffraction free propagation. An image with subwavelength features on the input surface is transferred through a propagation function to the output surface with effectively no, or minimal, loss in information. These special properties may be exploited in several ways, including but not limited to, magnification of an image at the input surface through the use an oblique cut at the output surface, magnification of an image at the input surface through use of a curved crystalline structure, and more generally near-field optical processing.
Alessandro Salandrino from Lawrence, KS, age ~46 Get Report