Search

Stanley Pau

from Tucson, AZ
Age ~54
Get Report
Also known as:
Stan Pau, Stanley Pan
Phone and address:
5791 N Placita Angelica, Tucson, AZ 85718
Related to:
Sarah I Robinson, 50
Connected to:
Diana Pau, 45Giovanni Pau, 53Jeffrey Pau, 58Ly Pau, 79Oi L Pau, 37Pedro S Pau, 80Rita Pau, 53Robert K Pau, 49Sung T Pau, 85Zam L Pau, 44

Stanley Pau Phones & Addresses

  • 5791 N Placita Angelica, Tucson, AZ 85718
  • 3045 1St St, Tucson, AZ 85716
    • s
  • 1912 N Magnolia Ave, Tucson, AZ 85712

Work

Company: The university of arizona Jun 2005 Position: Professor

Education

Degree: Doctorates, Doctor of Philosophy School / High School: Stanford University 1993 to 1996 Specialities: Electrical Engineering, Philosophy

Skills

University Teaching • Science • Research • Student Development • Latex • Higher Education • Student Affairs • Teaching • Statistics • College Teaching • Academic Writing • Matlab • Physics • Spectroscopy • Academic Advising • Curriculum Development • Lecturing • Theory • Distance Learning • Qualitative Research • Curriculum Design • Grant Writing • Adult Education

Industries

Higher Education

Resumes

Resumes

Stanley Pau Photo 1

Professor

View page
Location:
Tucson, AZ
Industry:
Higher Education
Work:
The University of Arizona
Professor
Lucent Technologies Bell Laboratories Aug 1998 - May 2005
Member of Technical Staff
Max-Planck Institute For Solid State Research, Stuttgart, Germany Oct 1996 - Jul 1998
Postdoctoral Fellow
Education:
Stanford University 1993 - 1996
Doctorates, Doctor of Philosophy, Electrical Engineering, Philosophy Stanford University 1992 - 1993
Masters, Electrical Engineering University of California, Berkeley 1988 - 1992
Bachelors, Electrical Engineering, Materials Science, Engineering
Skills:
University Teaching
Science
Research
Student Development
Latex
Higher Education
Student Affairs
Teaching
Statistics
College Teaching
Academic Writing
Matlab
Physics
Spectroscopy
Academic Advising
Curriculum Development
Lecturing
Theory
Distance Learning
Qualitative Research
Curriculum Design
Grant Writing
Adult Education

Publications

Isbn (Books And Publications)

Nanofabrication: Technologies, Devices, And Applications

View page
Author

Stanley Pau

ISBN #

0819455458

Nanofabrication, Technologies, Devices, and Applications II: 23-25 October, 2005, Boston, Massachusetts, USA

View page
Author

Stanley Pau

ISBN #

0819460265

Us Patents

Electric Field Mediated Chemical Reactors

View page
US Patent:
7780813, Aug 24, 2010
Filed:
Jun 9, 2005
Appl. No.:
11/148549
Inventors:
Stanley Pau - Tucson AZ, US
Donald Milan Tennant - Gillette NJ, US
Assignee:
Alcatel-Lucent USA Inc. - Murray Hill NJ
International Classification:
C23F 1/00
H01L 21/306
US Classification:
15634543
Abstract:
A chemical reactor includes two or more substrates joined along planar surfaces thereof, a chemical reaction chamber located between the two or more substrates, and a pair of electrodes on one of the substrates and along a wall of the reaction chamber. Each substrate is a substantially dielectric or semiconductor substrate. The chemical reaction chamber has a hollow interior, one or more input ports to transport a gas into the hollow interior, and an output port to transport a byproduct out of the hollow interior.

Multiple Exposure Optical Imaging Apparatus

View page
US Patent:
20070075218, Apr 5, 2007
Filed:
Oct 4, 2005
Appl. No.:
11/242751
Inventors:
John Gates - New Providence NJ, US
Carl Nuzman - Union NJ, US
Stanley Pau - Tucson AZ, US
International Classification:
H01L 27/00
US Classification:
250208100
Abstract:
Apparatus for storing an optical image of an object comprises an imaging device having a multiplicity of pixels, each pixel including a light sensor and a multiplicity of storage cells coupled to the sensor. A lens system focuses light from the object onto the imaging device. Within each pixel a first one of its storage cells is configured to store data corresponding to a first exposure of its sensor to light from the object, and a second one of its storage cells is configured to store data corresponding to a second exposure of its sensor to light from the object. In a preferred embodiment, the pixels are arranged in an array extending along a first direction, and during the time interval between the first and second exposures, a translator is configured to produce, in a second direction, a relative translation or shift between the imaging device and the focal point of the lens system. In one embodiment, the second direction is traverse to the first direction. In a preferred embodiment, each pixel comprises a photosensitive region, and the pixels are shifted by a distance that is approximately equal to one half the pitch of the photosensitive regions as measured in the second direction. In this fashion, the invention increases the spatial resolution by increasing the effective number of pixels of the sensor without increasing the actual number of pixels. In alternative embodiment of the invention, the dynamic range of the sensor is enhanced.

Microgrid Imaging Polarimeters With Frequency Domain Reconstruction

View page
US Patent:
20120075513, Mar 29, 2012
Filed:
Jun 11, 2010
Appl. No.:
13/377518
Inventors:
Russell A. Chipman - Tucson AZ, US
Stanley Pau - Tucson AZ, US
J. Scott Tyo - Tucson AZ, US
Bradley M. Ratliff - Union OH, US
International Classification:
H04N 5/335
US Classification:
348302
Abstract:
A polarization camera includes a microlement polarizer that is situated in proximity to a focal plane array. The microlement polarizer is selectively scanned with respect to an optical image direct to the focal plane array, and an image processor stores a set of images associated with the scanning. Based on the stored images, a polarization image can be produced and displayed. A periodic microelement polarizer modulates the individual images of the set, and these images can be processed by filtering in the spatial frequency domain to isolate contributions associated with one or a combination of Stokes parameters. After filtering, Stokes parameter based images can be obtained by demodulating and inverse Fourier transforming the filtered frequency domain data.

Patterned Electronic And Polarization Optical Devices

View page
US Patent:
20120105783, May 3, 2012
Filed:
Nov 2, 2011
Appl. No.:
13/287910
Inventors:
Stanley Pau - Tucson AZ, US
Arshad S. Sayyad - Tucson AZ, US
Graham B. Myhre - Tucson AZ, US
International Classification:
G02F 1/1337
US Classification:
349127
Abstract:
Linear photo-oriented polymer (LPP) layers are situated to align liquid crystals in a liquid crystal polymer (LCP) layer situated at or on the LPP layers. The LCP layer can include a guest such as a fluorophore that aligns with the liquid crystal so as to emit polarized fluorescence in response to an excitation beam. Layer LPP/LCP structures can be provided as light emitters, patterned polarizers, patterned retarders and other devices based on selection of one or more guest materials included in the LCP and alignable with the liquid crystal.

Chip-To-Chip Optical Interconnection Using High Refractive Index Couplers

View page
US Patent:
20220244458, Aug 4, 2022
Filed:
Jun 1, 2020
Appl. No.:
17/615136
Inventors:
- Tucson AZ, US
Erfan M. Fard - Tucson AZ, US
Roland Himmelhuber - Tucson AZ, US
Linan Jiang - Tucson AZ, US
Stanley K.H. Pau - Tucson AZ, US
Robert A. Norwood - Tucson AZ, US
Kyungjo Kim - Tucson AZ, US
International Classification:
G02B 6/122
G02B 6/30
Abstract:
A method for establishing optical coupling between spatially separated first and second planar waveguides includes arranging an optical interconnect on the first planar waveguide. The optical interconnect has first and second end portions and an intermediate portion. Each of the end portions has an inverse taper. The second planar waveguide is arranged on the optical interconnect so that the second planar waveguide overlaps with one of the inverse tapered end portions but not the other inverse tapered end portion to thereby enable an adiabatic transition of an optical signal from the first planar waveguide to the second planar waveguide via the optical interconnect. The first and second planar waveguides have different refractive indices at an operating wavelength and the optical interconnect have a higher refractive index at the operating wavelength than the refractive indices of a core of the first planar waveguide and a core of the second planar waveguide.

Optical Gyroscope With Gain Medium And Circulating Light

View page
US Patent:
20220205785, Jun 30, 2022
Filed:
Apr 22, 2020
Appl. No.:
17/604726
Inventors:
- Tucson AZ, US
Stanley Pau - Tucson AZ, US
International Classification:
G01C 19/58
H01S 3/06
H01S 3/094
Abstract:
Devices and associated methods for measuring orientation using an optical gyroscope are disclosed. One example optical gyroscope includes a spherical component configured to allow propagation of light in one or more confined modes inside the spherical component. The spherical component includes a gain medium for enhancing a sustained confinement of light within the spherical component. The optical gyroscope also includes one or more detectors positioned outside of the spherical component to detect at least one characteristic of the light, or a change thereto, in response to a rotation of the optical gyroscope.

Fabrication Of Polymer Waveguide Interconnect Between Chips With A Gap And/Or Step

View page
US Patent:
20210373236, Dec 2, 2021
Filed:
Feb 26, 2019
Appl. No.:
16/975819
Inventors:
- Tucson AZ, US
Stanley K.H. PAU - Tucson AZ, US
Robert A. Norwood - Tucson AZ, US
International Classification:
G02B 6/138
G02B 6/30
G02B 6/43
G02B 6/42
Abstract:
A method of forming an optical interconnect between first and second photonic chips located on an optical printed circuit board includes applying a flexible, freestanding film onto the first and second chips so that the film extends over a gap and/or step between the chips. The film includes a photosensitive layer having a refractive index that decreases by exposure to radiation and a backing layer. The film is exposed to a flood exposure having a radiation dosage penetrating the backing layer and only a surface sublayer of the photosensitive layer. After curing the film, the backing layer is removed so that the photosensitive layer remains on the first and second chips. The photosensitive layer is selectively exposed to a second radiation dosage to define waveguide core(s) in unexposed regions of the photosensitive layer below the surface sublayer. The photosensitive layer is heated to cure the selectively exposed portions.

Snapshot Mueller Matrix Polarimeter

View page
US Patent:
20210310871, Oct 7, 2021
Filed:
Jan 25, 2021
Appl. No.:
17/157355
Inventors:
- Tucson AZ, US
Stanley Pau - Tucson AZ, US
International Classification:
G01J 4/04
Abstract:
Methods and devices for measuring full or partial Mueller matrix information in a single shot are described. One single shot polarimeter includes a polarization filter that is positioned to receive collimated light from a light source and to produce light having different polarization states. The polarization filter includes at least four sections, where each section receives a portion of the collimated light and produces light of a particular polarization state, which is spatially separated from light produced by other sections of the polarization filter. An imaging component images the sections of the polarization filter onto a plane of a sample object. One or more optical elements receive the light from the sample object and image a section of the sample object onto a detector. The disclosed devices and methods enable the measurement of the Mueller matrix of the sample with high signal-to-noise ratios.
Control profile
Stanley Pau from Tucson, AZ, age ~54 Get Report