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Arup Neogi

from Denton, TX
Age ~58
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Also known as:
Arup Nedgi
Phone and address:
2804 Clubhouse Dr, Denton, TX 76210
(940) 271-0046
Related to:
Purnima B Neogi, 57
Connected to:
Richik Neogi, 28Taniya Neogi, 44Chitra Neogy, 81Julie M Neogy, 44Alan Neoh, 45Sheree A Neoh, 60Christos A Neophytou, 48Lou C Neos, 46Sareoun Neou, 67Ernest M Nepa, 32

Arup Neogi Phones & Addresses

  • 2804 Clubhouse Dr, Denton, TX 76210 (940) 271-0046 (940) 565-1243
  • 2401 E Mckinney St #136, Denton, TX 76209 (940) 591-6714
  • 2401 Mckinney St, Denton, TX 76209 (940) 591-6714
  • Corinth, TX
  • 1801 White Pine Dr, Durham, NC 27705 (919) 309-4561
  • 2401 E Mckinney St APT 136, Denton, TX 76209 (940) 636-1317

Work

Company: University of north texas Aug 2002 Position: Professor

Education

Degree: Doctor of Engineering School / High School: 山形大学 1994 to 1997 Specialities: Optoelectronics

Skills

Nanotechnology • Materials Science • Physics • Characterization • Science • Experimentation • Nanomaterials • Numerical Analysis • Matlab • Labview • Mathematical Modeling • Latex • Simulations • Fortran • Nanocomposites • Composites • Finite Element Analysis • Polymers • Teaching • Cancer Diagnostics Using Imaging • Bioimaging • Cardiovascular Sensors • Ultrafast Spectroscopy • Metamaterials • Plasmonics • Nanophotonics • International Project Management • Nanobiotechnology

Languages

English • Japanese • Hindi • Spanish

Emails

a***[email protected]

Industries

Higher Education

Resumes

Resumes

Arup Neogi Photo 1

Professor

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Location:
Dallas, TX
Industry:
Higher Education
Work:
University of North Texas since Aug 2002
Professor
Japan Society for Promotion of Sciences Apr 2006 - Mar 2010
Chairman
GDS International 2008 - 2008
Professor
Army Research Laboratory/Duke University Aug 2000 - Sep 2002
Senior Fellow of National Research Council
FESTA Laboratories, Japan Apr 1997 - Mar 2000
NEDO Fellow
Education:
山形大学 1994 - 1997
Doctor of Engineering, Optoelectronics Vikram University 1988 - 1992
Ph.D., Physics Rani Durgavati Vishwavidyalaya 1986 - 1988
M.Sc., Applied Physics
Skills:
Nanotechnology
Materials Science
Physics
Characterization
Science
Experimentation
Nanomaterials
Numerical Analysis
Matlab
Labview
Mathematical Modeling
Latex
Simulations
Fortran
Nanocomposites
Composites
Finite Element Analysis
Polymers
Teaching
Cancer Diagnostics Using Imaging
Bioimaging
Cardiovascular Sensors
Ultrafast Spectroscopy
Metamaterials
Plasmonics
Nanophotonics
International Project Management
Nanobiotechnology
Languages:
English
Japanese
Hindi
Spanish

Publications

Us Patents

Tunable Polymer-Based Sonic Structures

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US Patent:
20140060960, Mar 6, 2014
Filed:
Nov 14, 2013
Appl. No.:
14/080005
Inventors:
Arup Neogi - Denton TX, US
Tong Cai - Allen TX, US
Assignee:
University of North Texas - Denton TX
International Classification:
G10K 11/00
US Classification:
181175
Abstract:
Tunable polymer-based sonic structures (“TuPSS”) are made up of sonic structures and polymers. The TuPSS has three general requirements: a) The sonic structure is composed of one or materials engineered to behave as a lens, filter, cloak, or dampener; b) Stimulus sensitive polymer is incorporated into the sonic structure; and c) The actuation of the polymer tunes the acoustic behavior of the structure in a predictable manner. The tunable polymer-based sonic structures utilize stimuli-driven physical properties of the polymers in these acoustic structures to produce a stimulus driven, or tunable, sonic structure or device. The sonic structures actively modulate mechanical vibrations that propagate through the structures, but are passive in that they do not produce mechanical vibrations. The stimuli for the structures include electric, magnetic, electromagnetic, chemical, thermal, and shaking/orientation.

Methods And Devices For Electromagnetically Tuning Acoustic Media

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US Patent:
20130112496, May 9, 2013
Filed:
May 2, 2012
Appl. No.:
13/462682
Inventors:
Arup Neogi - Denton TX, US
Ezekiel Walker - Denton TX, US
Assignee:
The University of North Texas - Denton TX
International Classification:
G10K 15/00
US Classification:
181175, 296091
Abstract:
An acoustic material can be electromagnetically tuned to produce alterations in its acoustical properties without physical contact. The acoustic material should contain a periodic structure and a medium that has acousto-elastical properties that can be altered through the application of electromagnetic radiation. Changes in volumetric properties such as density result in changes to the velocity at which sound passes through the material. The acoustic material can be a phononic crystal that undergoes a change in its acoustic bandgap after being subjected to electromagnetic radiation. This electromagnetic tuning ability results in the ability to change the acoustic properties of various phononic devices without physical contact.
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Arup Neogi from Denton, TX, age ~58 Get Report