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Peter G Wigley

from Corning, NY
Age ~57
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Also known as:
Peter Dr Wigley, Peter Gerard Wigley, Peter Tracy Wigley, Peter W Wigley, Peter J Wigley, Pg Wigley, Wigley Wigley
Phone and address:
2880 Forest Hill Dr, Corning, NY 14830
(607) 962-4136
Related to:
Tracy A Wigley, 59
Connected to:
Andrew Wigley, 66Christy Wigley, 41Don M Wigley, 68Evan Wigley, 43Gayle R Wigley, 69Graham Wigley, 43Lee D Wigley, 39Melissa S Wigley, 56Olivia E Wigley, 79Patricia Wigley, 73

Peter Wigley Phones & Addresses

  • 2880 Forest Hill Dr, Corning, NY 14830 (607) 962-4136
  • 2802 Powderhouse Rd, Corning, NY 14830 (607) 962-4136
  • 2854 Powderhouse Rd, Corning, NY 14830 (607) 962-4136
  • 279 State St, Corning, NY 14830 (607) 962-4136
  • 7405 Wynnewood Sq, Winter Park, FL 32792
  • Orlando, FL

Work

Position: Food Preparation and Serving Related Occupations

Education

Degree: High school graduate or higher

Resumes

Resumes

Peter Wigley Photo 1

Network Technology Strategy Manager

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Location:
Sabinsville, PA
Industry:
Telecommunications
Work:
Corning Incorporated - Corning and Rochester, New York Area since Jan 2012
Advanced Optics Technologies Manager, Corning Specialty Materials
OCLARO Aug 2010 - Jan 2012
Director of Technology Strategy, Oclaro
OCLARO Jul 2009 - Aug 2010
Director, Marketing Strategy
OCLARO May 2008 - Jun 2009
Director of Development Engineering
Avanex Aug 2005 - Apr 2008
Senior Product Line Manager
Education:
Corning Incororated Learning Center 2012 - 2012
Innovation Black Belt Certification, Innovation Program Management Miller Heiman Sales Performance Course 2010 - 2010
University of Central Florida 2001 - 2005
PostDoc, Optical Physics Imperial College London 1987 - 1990
PhD, DIC, Optical Physics Kingston University 1984 - 1987
BSc, Applied Science South East Essex Sixth Form College 1982 - 1984
A levels St thomas more 1977 - 1982
Skills:
Product Development
Optics
Cross Functional Team Leadership
Telecommunications
Semiconductors
Business Development
Strategy
Engineering
Fiber Optics
Engineering Management
Management
Integration
Laser
Photonics
Product Marketing
Marketing Strategy
Program Management
Physics
R&D
Optical Communications
Process Improvement
Leadership
Technology Planning
Technology Evaluation
Six Sigma
Research and Development
Thin Films
Business Process Improvement
People Management
Roadmap
Wireless
Interests:
Classical Music
Children
Skiing
Economic Empowerment
Education
Sailing
Science and Technology
Poverty Alleviation
Scouting and Family Time
Folk Music and Bluegrass
Peter Wigley Photo 2

Peter Wigley

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Publications

Us Patents

Crosstalk Suppression In A Multipath Optical Amplifier

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US Patent:
6342966, Jan 29, 2002
Filed:
May 23, 2000
Appl. No.:
09/576663
Inventors:
Leslie James Button - Corning NY
Paul Anthony Jakobson - Big Flats NY
Peter Gerard Wigley - Corning NY
Michael John Yadlowsky - Corning NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
H01S 300
US Classification:
3593412, 359143, 3593372, 372 6
Abstract:
A multi-amplification path optical amplifier including a first amplification path for propagating and amplifying a first in-band optical communication signal, including a spectrally selective filter for substantially blocking the propagation and amplification of an out-of-band optical communication signal along the first amplification path, and a second amplification path for propagating and amplifying a second in-band optical communication signal, including a spectrally selective filter for substantially blocking the propagation and amplification of an out-of-band optical communication signal along the second amplification path, wherein the location. If the spectrally selective filters in each respective amplification path is selected so that a target noise figure performance and a target output power performance can be obtained from the device. The spectrally selective insertion losses suppress crosstalk or optical leakage that gives rise to multipath interference, return loss, and self oscillation.

Reduction Of Bend Loss Through Constraint Of Optical Fiber Parameters

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US Patent:
6477297, Nov 5, 2002
Filed:
Mar 8, 2000
Appl. No.:
09/520539
Inventors:
Jeffery A. DeMeritt - Painted Post NY
Zagorka D. Gaeta - Ithaca NY
Peter G. Wigley - Corning NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
H01S 300
US Classification:
385 32, 359333, 359337
Abstract:
A method of assembling an optical system includes the steps of: (i) selecting, from a plurality of optical fibers characterized by a common nominal cut-off wavelength and an actual cut-off wavelength such that the cut-off wavelength of each one of this plurality of fibers is the same as the nominal cut-off wavelength or differs slightly from the nominal cut-off wavelength due to manufacturing tolerances, only fibers with , where is a predetermined minimum acceptable cut-off wavelength of the selected fibers; and (ii) bending at least one section of at least one of these selected fibers such that this bent section has a bend radius R, where 12 mmR18 mm.

Method For Making Separable Multiple Core Optical Fibers, The Resulting Fiber Structures, And Uses Thereof

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US Patent:
6539151, Mar 25, 2003
Filed:
Dec 22, 2000
Appl. No.:
09/741887
Inventors:
James C. Fajardo - Painted Post NY
Michael T. Gallagher - Corning NY
Michael J. Hackert - Corning NY
Daniel W. Hawtof - Painted Post NY
George E. Berkey - Pine City NY
Daniel A. Nolan - Corning NY
Selina G. Farwell - Southapmtom, GB
Peter G. Wigley - Corning NY
Assignee:
Corning, Incorporated - Corning NY
International Classification:
G02B 604
US Classification:
385114, 385100
Abstract:
Optical fiber structures having at least two cores, whether unitary or separable, may be fabricated by controlling the placement of the cores prior to final processing to make the multi-core fiber structure. When the fiber is to be separable, at least two performs are attached, and the attachment height between adjacent canes is controlled to allow separation to be realized (or attachment to be maintained there between) anywhere along the separable multi-core fiber. These canes are then drawn together to form a desired composite fiber, either or both ends of which may be separated to allow for individual manipulation of fiber ends. The separable multi-core fiber may be utilized to fabricate a dual-port or multi-port optical component in which an input and an output (or multiple input/output) fibers are attached to the component, and the exposed distal ends of the separable multi-core fiber are thereafter separated from one another (even after the entire device is assembled and packaged) to provide separated waveguides for pigtailing or splicing to input or output fibers (or other planar or micro-optic components).

Thermal Ripple-Compensating, Gain-Flattening Filter For An Optical Amplifier

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US Patent:
6545798, Apr 8, 2003
Filed:
Apr 9, 2001
Appl. No.:
09/829590
Inventors:
Glenn D. Bartolini - Waltham MA
Vikram Bhatia - Painted Post NY
Peter G. Wigley - Corning NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
H04B 1012
US Classification:
3593371, 359337
Abstract:
An optical device including an optical amplifier to amplify optical signals received through an optical input, and to supply the amplified optical signals from an optical output, and an optical filter component to compensate for variations in the gain spectrum of the optical amplifier that occur as a function of wavelength and operating temperature. The optical filter component includes a first optical filter having an athermalized transmission spectrum and a second optical filter having a transmission (or insertion loss) spectrum that varies as a function of operating temperature.

Tapped Delay Line Based Gain Flattening Filter

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US Patent:
6546158, Apr 8, 2003
Filed:
Jul 10, 2001
Appl. No.:
09/902424
Inventors:
Barthelemy Fondeur - Fontainebleau, FR
Eliseo R. Ranalli - Irvine CA
Peter G. Wigley - Corning NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
G02B 626
US Classification:
385 3, 385 40
Abstract:
A method of modifying the spectral distribution of an optical signal includes the steps of splitting the signal among a plurality of optical paths, delaying the propagation of the signal through one or more of the optical paths by a time duration which results in the desired spectral distribution when the signals at the output ends of each optical path are recombined, and then recombining those outputs. An apparatus for changing the spectral profile of an optical signal includes an input waveguide and a plurality of tapped delay lines. Each of the tapped delay lines has a delay element configurable to impart a predetermined delay to the signal propagating down the delay line. Couplers split an optical signal, propagating on the input waveguide, among the tapped delay lines. The delays imparted to the signals on each line are chosen so as to effect the desired change to the spectral profile.

Single Parameter Gain Slope Adjuster For An Optical System

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US Patent:
6611371, Aug 26, 2003
Filed:
Mar 16, 2001
Appl. No.:
09/809882
Inventors:
Peter G. Wigley - Corning NY
Kai Wundke - Horseheads NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
H04B 1012
US Classification:
3593372, 3593371, 35933721, 35933722, 3593374
Abstract:
An optical device including an optical amplifier to amplify optical signals received through an optical input, and to supply the amplified optical signals from an optical output, and an optical filter coupled to the optical amplifier. The optical filter changes the gain slope of the optical amplifier in response to a change in a single parameter of the optical filter. The single parameter may be a change in a central wavelength of the optical filter function. The optical filter preferably has a parabolic spectral function. The single parameter may be varied as a function of temperature such that the variable optical attenuator compensates for variations in the gain spectrum of the optical amplifier that occur as a function of operating temperature.

Single Parameter Gain Slope Adjuster For An Optical System

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US Patent:
6646789, Nov 11, 2003
Filed:
Feb 22, 2002
Appl. No.:
10/080756
Inventors:
Parag V Kelkar - Horseheads NY
Peter G. Wigley - Corning NY
Kai Wundke - Elmira NY
Assignee:
Corning Incorporated - Corning NY
International Classification:
H04B 1012
US Classification:
3593371, 3593372, 35933722
Abstract:
An optical device comprises an optical amplifier to amplify optical signals, optical pumps coupled to and providing optical pump power to least one amplifying stage of the optical amplifier, so as to produce gain in the said optical amplifier and, a tunable optical filter coupled to the optical amplifier. The optical filter changes the gain slope of the optical amplifier in response to a change in a single parameter of the optical filter. The optical amplifier also includes at least one controller adjusting said single parameter of the optical filter and controlling the optical pumps.

Method And Device For Removing Heat From A Fiber-Optic Package

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US Patent:
6860651, Mar 1, 2005
Filed:
May 12, 2003
Appl. No.:
10/435985
Inventors:
Michael E. DeRosa - Painted Post NY, US
William J. Miller - Horseheads NY, US
Ljerka Ukrainczyk - Painted Post NY, US
Debra L. Vastag - Elmira Heights NY, US
Peter G. Wigley - Corning NY, US
International Classification:
G02B006/36
US Classification:
385 92
Abstract:
A device for removing heat from a fiber-optic package having at least one optical element includes a terminated fiber for diverting excess optical power away from the optical element and an energy dissipating element having a capability to absorb the optical power from the terminated fiber and a high thermal conductivity sufficient to distribute heat generated from absorption of the optical power.
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Peter G Wigley from Corning, NY, age ~57 Get Report