BackgroundCheck.run
Search For

Marc A Stiller, 64Big Basin, CA

Known as:
Marc Alan Stiller Marc Alan Te Stiller Marc Zaccone Julie Stiller Marc J Stiller Alan Marc Stiller
Related to:
Ellie Stiller Howard Blair 42 Heather Sanford 44 Robin Hines 39 William White 59 Thelma Looney 59

Marc Stiller Phones & Addresses

Boulder Creek, CA   

Cupertino, CA   

Buffalo, NY   

Santa Cruz, CA   

1251 Highland Dr, Boulder Creek, CA 95006    408-6666705   

Social networks

Marc A Stiller

Linkedin

Work

Company: Neophotonics Jan 2016 Position: Vice president product management

Education

Degree: Master of Science, Masters School / High School: Rensselaer Polytechnic Institute 1978 to 1984 Specialities: Mathematics, Physics

Skills

Fiber Optics • Optics • Product Marketing • Product Management • Telecommunications • Semiconductors • Cross Functional Team Leadership • R&D • Cloud Computing • Wireless • Ethernet • Engineering Management • Start Ups • Program Management • Wireless Technologies • Research and Development • Product Development • Electronics • Dwdm

Emails

m***[email protected]

Industries

Telecommunications
Get Report
Control this profile

Mentions for Marc A Stiller

Marc Stiller resumes & CV records

Resumes

Marc Stiller Photo 29

Vice President Product Management

Location:
Boulder Creek, CA
Industry:
Telecommunications
Work:
Neophotonics
Vice President Product Management Lightwave Microsystems 1999 - 2002
Director Product Marketing Lockheed Martin 1984 - 1993
Senior Scientist Neophotonics 1984 - 1993
Director Product Engineering
Education:
Rensselaer Polytechnic Institute 1978 - 1984
Master of Science, Masters, Mathematics, Physics
Skills:
Fiber Optics, Optics, Product Marketing, Product Management, Telecommunications, Semiconductors, Cross Functional Team Leadership, R&D, Cloud Computing, Wireless, Ethernet, Engineering Management, Start Ups, Program Management, Wireless Technologies, Research and Development, Product Development, Electronics, Dwdm

Publications & IP owners

Us Patents

Optical Interconnects With Hybrid Construction

US Patent:
6434282, Aug 13, 2002
Filed:
Jul 21, 2000
Appl. No.:
09/621416
Inventors:
Edward S. Binkley - Los Altos CA
John T. Kenney - Palo Alto CA
Marc A. Stiller - Boulder Creek CA
Assignee:
Lightwave Microsystems, Corporation - San Jose CA
International Classification:
G02B 610
US Classification:
385 8, 385132, 385131, 385122, 385 14, 385 30
Abstract:
Disclosed is a hybrid waveguide structure, wherein a core or cladding has a hybrid section or âbuttonâ of a different optical property such as refractive index from the major portion of the core or cladding, respectively. The hybrid section can be made of a passive material or an electro-optic material. Methods of making a hybrid waveguide structure are also disclosed. These methods include rib-based methods and trench-based methods, and in either of these methods, a temporary filler is used in many instances to incorporate the hybrid section into the hybrid waveguide structure.

Optical Interconnects With Hybrid Construction

US Patent:
6449417, Sep 10, 2002
Filed:
Feb 28, 2001
Appl. No.:
09/795925
Inventors:
Edward S. Binkley - Los Altos CA
John T. Kenney - Palo Alto CA
Marc A. Stiller - Boulder Creek CA
Assignee:
Lightwave Microsystems, Corp. - San Jose CA
International Classification:
G02B 610
US Classification:
385129, 385 8, 385132, 385131, 385122, 385 14, 385 30
Abstract:
Disclosed is a hybrid waveguide structure, wherein a core or cladding has a hybrid section or âbuttonâ of a different optical property such as refractive index from the major portion of the core or cladding, respectively. The hybrid section can be made of a passive material or an electro-optic material. Methods of making a hybrid waveguide structure are also disclosed. These methods include rib-based methods and trench-based methods, and in either of these methods, a temporary filler is used in many instances to incorporate the hybrid section into the hybrid waveguide structure.

Micro-Mechanical Waveguide Optical Devices

US Patent:
6625356, Sep 23, 2003
Filed:
Apr 12, 2001
Appl. No.:
09/835260
Inventors:
Anthony J. Ticknor - Cupertino CA
Marc A. Stiller - Boulder Creek CA
John T. Kenney - Palo Alto CA
Ken Purchase - Mountain View CA
Assignee:
Lightwave Microsystems, Corp. - San Jose CA
International Classification:
G02B 626
US Classification:
385 39, 385 9, 385 16, 385 18, 385 30, 385 48, 385 50
Abstract:
Optical devices and methods for attenuating, shuttering, or switching optical signals as found in telecommunications. A platform carrying a portion of a waveguide and residing in a plane of a substrate is tipped, tilted, twisted, or otherwise moved out of the plane of the substrate to divert the path of an optical signal or to change coupling between adjacent waveguides. The platform can be formed by etching a substrate while leaving one or more connection points between the platform and the substrate to hold the platform to the substrate.

Photonic Devices Comprising Thermo-Optic Polymer

US Patent:
6311004, Oct 30, 2001
Filed:
Nov 10, 1999
Appl. No.:
9/437690
Inventors:
John T. Kenney - Palo Alto CA
John Midgley - San Carlos CA
Valentine N. Morozov - San Jose CA
Ken Purchase - Mountain View CA
Marc Stiller - Boulder Creek CA
Anthony Ticknor - Cupertino CA
James Burke - Tucson AZ
John Love - Flynn, AU
Assignee:
Lightwave Microsystems - San Jose CA
International Classification:
G02B 610
US Classification:
385130
Abstract:
Hybrid integrated planar photonics provides silica waveguides for transport and polymer or hybrid silica/polymer waveguides for refractive-based active functions within a single integrated photonic circuit. Functions include modulation, attenuation, switching, filtering, and exceptionally low-loss transport. When the active and passive optical elements are integrated onto the same substrates, the resulting composite devices can exhibit strong functional response with little total optical loss as compared to known methods.

Optical Interconnects With Hybrid Construction

US Patent:
6144779, Nov 7, 2000
Filed:
Mar 11, 1997
Appl. No.:
8/814399
Inventors:
Edward S. Binkley - Los Altos CA
John T. Kenney - Palo Alto CA
Marc A. Stiller - Boulder Creek CA
Assignee:
Lightwave Microsystems Corporation - San Jose CA
International Classification:
G02B 610
US Classification:
385 8
Abstract:
Disclosed is a hybrid waveguide structure, wherein a core or cladding has a hybrid section or "button" of a different optical property such as refractive index from the major portion of the core or cladding, respectively. The hybrid section can be made of a passive material or an electro-optic material. Methods of making a hybrid waveguide structure are also disclosed. These methods include rib-based methods and trench-based methods, and in either of these methods, a temporary filler is used in many instances to incorporate the hybrid section into the hybrid waveguide structure.

Gray Scale Microfabrication For Integrated Optical Devices

US Patent:
5480764, Jan 2, 1996
Filed:
Mar 4, 1994
Appl. No.:
8/206134
Inventors:
George Gal - Palo Alto CA
William W. Anderson - Half Moon Bay CA
Bruce J. Herman - Mountain View CA
Marc A. Stiller - Boulder Creek CA
Assignee:
Lockheed Missiles and Space Comapny, Inc. - Sunnyvale CA
International Classification:
G02B 6136
US Classification:
430321
Abstract:
A monolithically integrated, micro-fabricated optical device for use in photonic applications has at least one waveguide surface configuration which cannot be fabricated by binary processing. The optical device comprises a plurality of layers of substrate materials. The material in at least one layer has an index of refraction different from the index of retraction of the material in an adjacent layer. A waveguide surface is formed at an interface between the layers and has a configuration fabricated by use of a gray scale mask.

Possible Relatives

David A Stiller  Dale T Stiller  Deborah A Stiller  Evelyn D Stiller  Heather M Stiller  Jack R Stiller  James M Stiller  Marc R Johnson  Marc E Stander  Marc R Johnston 

NOTICE: You may not use BackgroundCheck or the information it provides to make decisions about employment, credit, housing or any other purpose that would require Fair Credit Reporting Act (FCRA) compliance. BackgroundCheck is not a Consumer Reporting Agency (CRA) as defined by the FCRA and does not provide consumer reports.