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Theodore Norris
In the United States, there are 148 individuals named Theodore Norris spread across 30 states, with the largest populations residing in Florida, Ohio, California.
Last updated 2024-03-14
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Public Records for Theodore Norris
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Theodore R Norris , ~89
Sherwood, MD
- Has lived in:
- Sherwood, MD
- Tilghman, MD
- St Michaels, MD
- Saint Michaels, MD
- Related to:
- Joseph Norris, 63
- Albert Norris, 74
- Casey Norris, 34
- Margaret Birch, 93
- Phone number:
- 410-886-****
Theodore A Norris , ~79
Huntingdon, PA
- Also known as:
- Theodore E Norris
- Ted A Norris
- Has lived in:
- Huntingdon, PA
- Brooklawn, NJ
- Related to:
- Lisa Norris, 45
- Janelle Peters, 45
- Demitri Brown, 49
- Demitri Raven
- Phone number:
- 814-643-****
- 856-816-****
Theodore R Norris , ~91
Tehachapi, CA
- Has lived in:
- Tehachapi, CA
- Falls Church, VA
- Ocala, FL
- Alexandria, VA
- Related to:
- Timothy Norris
- William Norris, 73
- Nancy Henninger, 58
- Robert Henninger
- Phone number:
- 352-351-****
Theodore D Norris , ~43
Everett, WA
- Also known as:
- Ted Norris
- Has lived in:
- Everett, WA
- Lynnwood, WA
- Bothell, WA
- Kirkland, WA
- Related to:
- Marisa Harrison, 42
- Anita Harrison, 65
- Bryant Harrison, 68
- Merlin Ingersoll, 99
- Phone number:
- 206-579-****
Theodore W Norris , ~67
Richmond, VA
- Also known as:
- Theodore J Norris
- Has lived in:
- Richmond, VA
- Goochland, VA
- Crozier, VA
- Manakin Sabot, VA
- Related to:
- Casey Lewis, 53
- Rosemary Morris, 56
- Joyce Norris, 62
- Theodore Norris, 33
- Phone number:
- 804-740-****
Theodore B Norris , ~63
Saint Louis, MO
- Also known as:
- Tedd Norris
- Ted B Norris
- Ted D Norris
- Theodore N Burke
- Has lived in:
- Saint Louis, MO
- Kirkwood, MO
- Saint Peters, MO
- O Fallon, MO
- Related to:
- Darlene Turner
- Michelle Turner, 34
- William Turner, 94
- Norris Daniel, 56
- Phone number:
- 314-892-****
Theodore P Norris , ~95
Mentor, OH
- Also known as:
- Ted P Norris
- Theodore P Orris
- Has lived in:
- Mentor, OH
- Ashtabula, OH
- Related to:
- Jeremy Norris, 44
- Jeremy Norris, 50
- Neal Norris, 65
- Roberta Norris, 61
- Phone number:
- 440-313-****
- 440-997-****
Theodore W Norris , ~34
Henrico, VA
- Has lived in:
- Henrico, VA
- Norfolk, VA
- Richmond, VA
- Sandy Hook, VA
- Related to:
- Evelyn Broaden, 63
- Joan Mercatante, 92
- Stephen Mercatante, 61
- Aleshia Mercatante, 61
Theodore A Norris , ~28
Plano, TX
- Has lived in:
- Plano, TX
- Joliet, IL
- Greenwood, IN
- Flossmoor, IL
- Related to:
- Thomas Norris, 67
- Jennever Norris, 44
- Andre Sangster
- Thedora Duncan, 59
Theodore H Norris Deceased
Mount Ephraim, NJ
- Also known as:
- Theo Norris
- Ted H Norris
- Has lived in:
- Mount Ephraim, NJ
- Williamstown, NJ
- Brooklawn, NJ
- Sicklerville, NJ
- Related to:
- Eric Norris, 38
- Lona Norris, 88
- Michelle Norris, 55
- Richard Norris, 56
Public information about Theodore Norris
Phones & Addresses
Name
Addresses
Phones
Theodore B Norris
Theodore C Norris
Theodore Norris
Theodore Norris
Publications
Us Patents
Analytical System With Photonic Crystal Sensor
US Patent:
8497992, Jul 30, 2013
Filed:
Nov 11, 2009
Appl. No.:
12/616457
Inventors:
Jingyong Ye - Ann Arbor MI, US
Jason E. Gestwicki - Ann Arbor MI, US
Theodore B. Norris - Dexter MI, US
Jason E. Gestwicki - Ann Arbor MI, US
Theodore B. Norris - Dexter MI, US
Assignee:
The Regents of The University of Michigan - Ann Arbor MI
International Classification:
G01N 21/55
US Classification:
356448, 356445
Abstract:
A system for determining whether interaction occurs between a trial substance and a target substance. The system includes a photonic crystal sensor having a photonic crystal structure and a defect member disposed adjacent the photonic crystal structure. The defect member defines an operative surface able to receive the target substance and the trial substance. The system further includes a light source that inputs a light signal to the photonic crystal structure and the defect member. The light signal is internally reflected, and a resultant output signal is outputted. The output signal relates to whether the trial substance interacts with the target substance at the operative surface. Furthermore, the system includes an identity detector that identifies the trial substance that interacts with the target substance.
Double-Clad Fiber Scanning Microscope
US Patent:
7362500, Apr 22, 2008
Filed:
May 28, 2004
Appl. No.:
10/556620
Inventors:
Jing Yong Ye - Ann Arbor MI, US
Theodore B. Norris - Dexter MI, US
Theodore B. Norris - Dexter MI, US
Assignee:
The Regents of the University of Michigan - Ann Arbor MI
International Classification:
G02B 21/00
G02B 21/06
G02B 21/06
US Classification:
359368, 359385, 359391
Abstract:
A scanning microscope having a laser outputting an excitation laser beam and a fiber member having a first core and a second core. The second core is generally disposed within the first core and is operable to receive the excitation laser beam from the laser and transmit the excitation laser beam to a sample to be tested. A moveable stage supports an end of the fiber member and/or a sample to be tested and is operable to move the end of the fiber member and the sample to be tested relative to each other.
Enhancing Fiber-Optic Sensing Technique Using A Dual-Core Fiber
US Patent:
7046888, May 16, 2006
Filed:
Dec 17, 2003
Appl. No.:
10/738828
Inventors:
Jing Yong Ye - Ann Arbor MI, US
Theodore Norris - Dexter MI, US
Thomas Thommey - Dexter MI, US
Mon Myaing - Ann Arbor MI, US
Theodore Norris - Dexter MI, US
Thomas Thommey - Dexter MI, US
Mon Myaing - Ann Arbor MI, US
Assignee:
The Regents of the University of Michigan - Ann Arbor MI
International Classification:
G02B 6/02
US Classification:
385126, 385 12, 385127
Abstract:
An optical fiber for use in fiber optic sensing of a test sample includes a first core and a second core. The second core is generally coaxially disposed within the first core and is sized smaller than the first core. The second core is capable of delivering pulsed laser energy from the laser for nonlinear optical excitation of the test sample. Nonlinear optical feedback signals can then be collected in both the first core and second core for improved detection efficiency relative to conventional single-mode and multi-mode fibers.
Adjustably Orientable Plant Hanger
US Patent:
4337916, Jul 6, 1982
Filed:
Oct 16, 1980
Appl. No.:
6/197647
Inventors:
Theodore C. Norris - Malvern PA
International Classification:
F16M 1300
US Classification:
248558
Abstract:
A cord sling type of plant hanger is provided with means strung on the suspending cords for manual adjustment of the plant orientation about the vertical axis. The adjustment means include an arch-shaped member and a regular polygonal button-like member engageable snugly within the archway to retain a given orientation. The polygonal member is laterally disengageable from the arch-shaped member enabling it to be twisted about the vertical, together with a suspended plant container, and be re-engaged laterally at a different orientation.
Kirigami Chiroptical Modulators For Circular Dichroism Measurements In Terahertz And Other Parts Of Electromagnetic Spectrum
US Patent:
2020002, Jan 23, 2020
Filed:
Jul 22, 2019
Appl. No.:
16/518230
Inventors:
- Ann Arbor MI, US
Theodore B. NORRIS - Dexter MI, US
Gong CHENG - Ann Arbor MI, US
Wonjin CHOI - Ann Arbor MI, US
Theodore B. NORRIS - Dexter MI, US
Gong CHENG - Ann Arbor MI, US
Wonjin CHOI - Ann Arbor MI, US
International Classification:
G01J 5/08
G01J 3/28
G01J 3/42
G01J 3/28
G01J 3/42
Abstract:
Kirigami-based optic devices are provided that include a tunable kirigami-based component comprising a plurality of bridge structures and a plurality of openings therebetween to form a grating structure. At least one surface of the kirigami-based component is micropatterned with a plasmonic material so that the grating is configured to induce or modulate rotational polarity of a beam of electromagnetic radiation as it passes through the plurality of openings. In certain aspects, the micropattern may be a gold herringbone pattern. The kirigami-based component has tunable 3D topography, which when stretched, exhibits polarization rotation angles as high as 80 and ellipticity angles as high as 34 due to the topological equivalency of helix. The kirigami-based components are compact electromagnetic modulators and can be used in THz circular dichroism (TCD) spectroscopy, for example, in a stacked configuration as a modulator, as an encryptor/decryptor for secure communication, in biomedical imaging, and LIDAR systems.
Enhancing Fiber-Optic Sensing Technique Using A Dual-Core Fiber
US Patent:
7236673, Jun 26, 2007
Filed:
Mar 9, 2006
Appl. No.:
11/372425
Inventors:
Jing Yong Ye - Ann Arbor MI, US
Theodore Norris - Dexter MI, US
Thomas Thommey - Dexter MI, US
Mon Myaing - Ann Arbor MI, US
Theodore Norris - Dexter MI, US
Thomas Thommey - Dexter MI, US
Mon Myaing - Ann Arbor MI, US
Assignee:
The Regents of the University of Michigan - Ann Arbor MI
International Classification:
G02B 6/02
US Classification:
385123, 385 12
Abstract:
An optical fiber for use in fiber optic sensing of a test sample includes a first core and a second core. The second core is generally coaxially disposed within the first core and is sized smaller than the first core. The second core is capable of delivering pulsed laser energy from the laser for nonlinear optical excitation of the test sample. Nonlinear optical feedback signals can then be collected in both the first core and second core for improved detection efficiency relative to conventional single-mode and multi-mode fibers.
Photodetectors Based On Double Layer Heterostructures
US Patent:
2014026, Sep 18, 2014
Filed:
Mar 11, 2014
Appl. No.:
14/204503
Inventors:
- Ann Arbor MI, US
Theodore B. Norris - Dexter MI, US
Chang-Hua Liu - Ann Arbor MI, US
Theodore B. Norris - Dexter MI, US
Chang-Hua Liu - Ann Arbor MI, US
International Classification:
H01L 31/02
US Classification:
257 21
Abstract:
A photodetector is provided with a thin film double layer heterostructure. The photodetector is comprised of: a substrate; a channel layer of a transistor deposited onto a top surface of the substrate; a source layer of the transistor deposited on the top surface of the substrate; a drain layer of the transistor deposited on the top surface of the substrate, the source layer and the drain layer disposed on opposing sides of the channel layer; a barrier layer deposited onto the channel layer; and a light absorbing layer deposited on the barrier layer. The light absorbing layer is configured to absorb light and, in response to light incident on the light absorbing layer, electrical conductance of the channel layer is changed through hot carrier tunneling from the light absorbing layer to the channel layer.
Photonic Crystal-Metallic Structures And Applications
US Patent:
2013016, Jul 4, 2013
Filed:
May 26, 2011
Appl. No.:
13/700378
Inventors:
Yunbo Guo - Ann Arbor MI, US
Theodore B. Norris - Dexter MI, US
James R. Baker - Ann Arbor MI, US
Lingjie Jay Guo - Ann Arbor MI, US
Nils G. Walter - Ann Arbor MI, US
Theodore B. Norris - Dexter MI, US
James R. Baker - Ann Arbor MI, US
Lingjie Jay Guo - Ann Arbor MI, US
Nils G. Walter - Ann Arbor MI, US
Assignee:
THE REGENTS OF THE UNIVERSITY OF MICHIGAN - Ann Arbor MI
International Classification:
G02B 5/00
US Classification:
250216, 359298, 977700
Abstract:
A photonic crystal-metallic (PCM) structure receives an input light signal from a light source. The PCM structure includes a metal structure and a photonic crystal structure disposed adjacent the metal structure. The photonic crystal structure is configured to receive the input light signal such that the input light signal excites surface plasmons of the metallic structure and such that the input light signal is internally reflected within the photonic crystal structure.
FAQ: Learn more about Theodore Norris
What are the previous addresses of Theodore Norris?
Previous addresses associated with Theodore Norris include: 7120 Hickory Creek Dr Apt 1, Dexter, MI 48130; 81060 Aurora Ave, Indio, CA 92201; 22728 Westwood Blvd, Tehachapi, CA 93561; 11918 52Nd Ave Se, Everett, WA 98208; 11404 Penn Woods Rd, Huntingdon, PA 16652. Remember that this information might not be complete or up-to-date.
Where does Theodore Norris live?
Sherwood, MD is the place where Theodore Norris currently lives.
How old is Theodore Norris?
Theodore Norris is 89 years old.
What is Theodore Norris date of birth?
Theodore Norris was born on 1935.
What is Theodore Norris's email?
Theodore Norris has such email addresses: pam.nor***@hotmail.com, enor***@bellsouth.net, wuk***@aol.com, theodore.nor***@msn.com, theodorenor***@hotmail.com, theodorewatkinnor***@bright.net. Note that the accuracy of these emails may vary and they are subject to privacy laws and restrictions.
What is Theodore Norris's telephone number?
Theodore Norris's known telephone numbers are: 607-658-9567, 734-424-2864, 814-643-4930, 434-990-6503, 907-495-8800, 251-955-6575. However, these numbers are subject to change and privacy restrictions.
Who is Theodore Norris related to?
Known relatives of Theodore Norris are: Florence Norris, Joseph Norris, Albert Norris, Casey Norris, Margaret Birch, William Birch. This information is based on available public records.
What are Theodore Norris's alternative names?
Known alternative names for Theodore Norris are: Florence Norris, Joseph Norris, Albert Norris, Casey Norris, Margaret Birch, William Birch. These can be aliases, maiden names, or nicknames.
What is Theodore Norris's current residential address?
Theodore Norris's current known residential address is: 6640 Holly Woods Rd, Sherwood, MD 21665. Please note this is subject to privacy laws and may not be current.
What are the previous addresses of Theodore Norris?
Previous addresses associated with Theodore Norris include: 7120 Hickory Creek Dr Apt 1, Dexter, MI 48130; 81060 Aurora Ave, Indio, CA 92201; 22728 Westwood Blvd, Tehachapi, CA 93561; 11918 52Nd Ave Se, Everett, WA 98208; 11404 Penn Woods Rd, Huntingdon, PA 16652. Remember that this information might not be complete or up-to-date.