Search

Antonio C Ting

from Silver Spring, MD
Age ~74
Get Report
Also known as:
Antonio Dr Ting
Phone and address:
14625 Jaystone Dr, Silver Spring, MD 20905
(301) 384-7807
Related to:
Deonte Nicole CarvinPaulette Freeman, 54Donna E Johnson, 53Lateshia Johnson, 54Delisa JohnsonCarolyn JohnsonChristine L Johnson
Connected to:
Angel N Ting, 33Bang H Ting, 69Belinda D Ting, 48Bennett L Ting, 57Bernadette Ting, 82Brian B Ting, 52Candy N Ting, 65Chao K Ting, 59Charlene H Ting, 65Charles Ting, 77

Antonio Ting Phones & Addresses

  • 14625 Jaystone Dr, Silver Spring, MD 20905 (301) 384-7807 (301) 989-8630
  • 4221 10Th St, Renton, WA 98059
  • Greenbelt, MD
  • Washington, DC
  • Seabrook, MD
  • Kiona, WA

Work

Company: University of maryland Jul 2016 Position: Research scientist

Education

Degree: Doctorates, Doctor of Philosophy School / High School: University of Maryland 1984 to 1984 Specialities: Physics

Skills

Physics • Optics • Science • Experimentation • Spectroscopy • R&D • Laser Physics • Laser • Mathematical Modeling • Materials Science • Program Management • Nanotechnology • Numerical Analysis • Scientific Computing • Mathematica • Photonics

Industries

Research

Resumes

Resumes

Antonio Ting Photo 1

Research Scientist

View page
Location:
Silver Spring, MD
Industry:
Research
Work:
University of Maryland
Research Scientist
U.s. Naval Research Laboratory
Contractor Consultant
Naval Research Laboratory Aug 1985 - Feb 2016
Section Head and Research Physicist
Education:
University of Maryland 1984 - 1984
Doctorates, Doctor of Philosophy, Physics
Skills:
Physics
Optics
Science
Experimentation
Spectroscopy
R&D
Laser Physics
Laser
Mathematical Modeling
Materials Science
Program Management
Nanotechnology
Numerical Analysis
Scientific Computing
Mathematica
Photonics

Business Records

Name / Title
Company / Classification
Phones & Addresses
Antonio Ting
President
Executive Office of The President
Executive Office
1600 Pennsylvania Ave NW, Washington, DC 20500
(202) 456-1414

Publications

Us Patents

Remote Underwater Laser Acoustic Source

View page
US Patent:
7260023, Aug 21, 2007
Filed:
Nov 2, 2005
Appl. No.:
11/268400
Inventors:
Theodore G Jones - Alexandria VA, US
Antonio C Ting - Silver Spring MD, US
Phillip A Sprangle - Great Falls VA, US
Leonard Dale Bibee - Slidell LA, US
Joseph R Penano - Springfield VA, US
Assignee:
United Statesof America as Represented by the Secretary of the Navy - Washington DC
International Classification:
G01H 9/00
US Classification:
367149
Abstract:
A method for generating an acoustic source in a liquid includes transmitting an optical pulse through the liquid so the optical pulse reaches Ithrough pulse compression and ionizes a liquid volume. The pulse compression is achieved through at least one of a) group velocity dispersion induced longitudinal compression of a frequency chirped optical pulse and b) transverse self focusing via a nonlinear optical Kerr effect. The acoustic source can be generated at a controllable remote location many meters from the optical source. The optical source can be a laser or other suitable optical device.

Laser Filament Imager

View page
US Patent:
7339972, Mar 4, 2008
Filed:
Jun 27, 2005
Appl. No.:
11/169263
Inventors:
Daniel Gordon - Waldorf MD, US
Antonio Ting - Silver Spring MD, US
Eldridge Briscoe - San Diego CA, US
Assignee:
United States of America as represented by the Secretary of the Navy - Washington DC
International Classification:
H01S 3/223
US Classification:
372 55, 372 59
Abstract:
An apparatus includes a gas chamber comprising a gas feed nozzle, an exhaust nozzle, and a window. The apparatus also includes a first partial reflector, in the gas chamber, sharing an optical path with the exhaust nozzle, and the window. Optionally, The apparatus includes a gas source communicating with the gas feed nozzle. Optionally, the gas source includes a gas having an ionization potential higher than air and a nonlinear index of refraction lower than air.

Remote Laser Assisted Biological Aerosol Standoff Detection In Atmosphere

View page
US Patent:
7683346, Mar 23, 2010
Filed:
Aug 28, 2006
Appl. No.:
11/467580
Inventors:
Antonio C Ting - Silver Spring MD, US
Ilya Alexeev - West Chester PA, US
Phillip A Sprangle - Great Falls VA, US
Richard F Hubbard - Burke VA, US
Glenn Rubel - Baldwin MD, US
Eldridge C Briscoe - San Diego CA, US
Christopher I Moore - Prince Frederick MD, US
Assignee:
The United States of America as represented by the Secretary of the Navy - Washington DC
International Classification:
G01N 21/64
US Classification:
2504611, 2504612
Abstract:
A method used to detect and identify biological substances suspended in air in the form of aerosols or clouds including generating a remote infrared light beam directed toward the atmospheric contamination, producing an ultraviolet light beam from the infrared light beam by compression via the air through which the IR beam travels, and producing fluorescence of the atmospheric contamination, when the generated ultraviolet light contacts the atmospheric contamination. The fluorescent signals are then processed in order to identify the nature of the atmospheric contamination.

Remote Laser Assisted Biological Aerosol Standoff Detection In Atmosphere

View page
US Patent:
7700929, Apr 20, 2010
Filed:
Mar 19, 2009
Appl. No.:
12/407429
Inventors:
Antonio Ting - Silver Spring MD, US
Ilya Alexeev - West Chester PA, US
Phillip Sprangle - Great Falls VA, US
Richard Hubbard - Burke VA, US
Glenn Rubel - Baldwin MD, US
Eldridge Briscoe - San Diego CA, US
Christopher Moore - Prince Frederick MD, US
Assignee:
The United States of America as represented by the Secretary of the Navy - Washington DC
International Classification:
G01N 21/64
US Classification:
2504611, 2504612
Abstract:
A system for detecting atmospheric contamination, the system comprising a laser operable to generate an infrared light beam comprising a longitudinal component and a transverse component, the laser remote from the atmospheric contamination, and a processor operable to process a flouresence resulting from contact between the atmospheric contamination and an ultraviolet light being generated from the longitudinal and transverse components of the infrared light of the laser, wherein the processor determines the identity of the fluorescence by comparing the fluorescence to known fluorescence.

Apparatus For Incoherent Combining Of High Power Lasers For Long-Range Directed-Energy Applications

View page
US Patent:
7970040, Jun 28, 2011
Filed:
Mar 20, 2008
Appl. No.:
12/052196
Inventors:
Phillip A Sprangle - Great Falls VA, US
Joseph R Penano - Springfield VA, US
Bahman Hafizi - Bethesda MD, US
Antonio C Ting - Silver Spring MD, US
Richard P. Fischer - Silver Spring MD, US
Assignee:
The United States of America as represented by the Secretary of the Navy - Washington DC
International Classification:
H01S 3/08
US Classification:
372 98
Abstract:
An embodiment of the invention includes an apparatus. The apparatus includes a plurality of lasers comprising a plurality of laser paths. The apparatus further includes an incoherent combining beam director in the plurality of laser paths. The apparatus also includes a plurality of optical elements in the plurality of laser paths between the plurality of lasers and the beam director.

Quasi-Remote Laser Pulse Compression And Generation Of Radiation And Particle Beams

View page
US Patent:
8351476, Jan 8, 2013
Filed:
Jun 21, 2012
Appl. No.:
13/529167
Inventors:
Richard F. Hubbard - Burke VA, US
Antonio C. Ting - Silver Spring MD, US
Joseph R. Peñano - Fairfax Station VA, US
Daniel F. Gordon - Waldorf MD, US
Phillip A. Sprangle - Great Falls VA, US
Bahman Hafizi - Bethesda MD, US
Arie Zigler - Washington DC, US
Assignee:
The United States of America, as represented by the Secretary of the Navy - Washington DC
International Classification:
H01S 3/10
H01S 3/098
US Classification:
372 30, 372 25, 372 2901, 372 29014
Abstract:
A system and methods for the quasi-remote compression and focusing of a moderate-intensity laser pulse to form a much higher intensity beam that can be directed at a target and used as a probe beam or used in a probe beam converter to generate other forms of electromagnetic radiation or energetic particles. A system for the quasi-remote propagation of high-intensity laser beams in accordance with the present invention comprises a main platform on which a first, “seed” laser pulse is generated, stretched, and amplified, and a remote platform, located at a distance from the main platform, which is configured to receive the amplified and stretched pulse and convert it into the high-intensity laser beam. The high-intensity laser beam in turn can then be converted into one or more probe beams directed at a target object.

Compact High Power Terahertz Radiation Cell

View page
US Patent:
8369001, Feb 5, 2013
Filed:
Jul 17, 2009
Appl. No.:
12/504769
Inventors:
Daniel F Gordon - Waldorf MD, US
Antonio C Ting - Silver Spring MD, US
Phillip A Sprangle - Great Falls VA, US
Assignee:
The United States of America, as represented by the Secretary of the Navy - Washington DC
International Classification:
G02F 1/35
G02F 2/02
US Classification:
359326, 372 21
Abstract:
A device for generating terahertz radiation using a phase matched optical rectification technique. The device converts laser radiation to terahertz radiation via a particular type of photonic downconversion. The device includes a crystalline material suitable for photonic downconversion of laser radiation, a first coupling component for coupling the laser radiation to the crystalline material and a second coupling component for coupling the generated terahertz radiation from the crystalline material to the environment. By sustaining the phase matching condition over a significant distance, the device is capable of providing terahertz radiation with high peak and average power. Also disclosed is a method for generating terahertz radiation including the steps of optically coupling laser radiation to a crystalline material suitable for downconversion of the laser radiation to terahertz radiation, downconverting the laser radiation to terahertz radiation and optically coupling the generated terahertz radiation from the crystalline material to the environment.

High Average Current, High Quality Pulsed Electron Injector

View page
US Patent:
8564224, Oct 22, 2013
Filed:
May 17, 2011
Appl. No.:
13/109131
Inventors:
Phillip A. Sprangle - Great Falls VA, US
Steven H. Gold - New Carrollton MD, US
Antonio C. Ting - Silver Spring MD, US
Joseph R. Penano - Fairfax Station VA, US
Daniel F. Gordon - Waldorf MD, US
Bahman Hafizi - Bethesda MD, US
Assignee:
The United States of America, as represented by the Secretary of the Navy - Washington DC
International Classification:
H01J 23/06
H01J 3/14
US Classification:
315500, 250396 R
Abstract:
An electron injector including an electron source and a conducting grid situated close to the electron source, one or more RF accelerating/bunching cavities operating at the same fundamental RF frequency; a DC voltage source configured to bias the cathode at a small positive voltage with respect to the grid; a first RF drive configured to apply an RF signal between the cathode and grid at the fundamental and third harmonic RF frequencies; and a second RF drive configured to apply an RF drive signal to the accelerating/bunching cavities. Electrons are emitted by the cathode and travel through the grid to the accelerating/bunching cavities for input into an RF linac. The first RF drive applies a first RF drive signal at the fundamental frequency of the linac plus higher harmonics thereof to the gap between the cathode and the grid to cause the emitted electrons to form electron bunches and the second RF drive applies a second RF drive signal to the accelerating/bunching cavities on the other side of the grid to further accelerate and optimize the size of the electron bunches. Because the applied RF signals contain at the fundamental linac frequency, the electrons are bunched at that frequency and each RF bucket of the linac is filled with an electron bunch.
Control profile
Antonio C Ting from Silver Spring, MD, age ~74 Get Report