MARK ALAN PETERSON, PT
Restorative Service Providers at Cedar Rd, Vista, CA

License number

California 17962

Professional information

Pastor, Marketing Director For Christian Credit Counselors, Director Of Globaltribe International

Position:

Director at Web Performance

Location:

Greater San Diego Area

Industry:

Internet

Work:

Web Performance - Director Christian Credit Counselors, Inc. 2010 - 2011 - Marketing Director

Publisher Services Specialist

Position:

Publisher Services Specialist at Verve

Location:

San Diego, California

Industry:

Computer Software

Work:

Verve - Encinitas, CA since Mar 2012 - Publisher Services Specialist

Education:

Bradley University 1994 - 1999
Bachelor of Arts (B.A.), History & Administration of Criminal Justice

Ceo At Stater Bros. Markets

Position:

CEO at Stater Bros. Markets

Location:

Greater San Diego Area

Industry:

Food & Beverages

Work:

Stater Bros. Markets - CEO

President At Southland Electric, Inc.

Position:

President at Southland Electric, Inc.

Location:

Greater San Diego Area

Industry:

Construction

Work:

Southland Electric, Inc. - President

Method And System For A Light Source Assembly Supporting Direct Coupling To An Integrated Circuit

US Patent:

8440989, May 14, 2013

Filed:

Apr 25, 2012

Appl. No.:

13/455641

Inventors:

Michael Mack - San Diego CA, US
Mark Peterson - San Diego CA, US
Steffen Gloeckner - San Diego CA, US
Adithyaram Narasimha - Carlsbad CA, US
Roger Koumans - Irvine CA, US
Peter De Dobbelaere - San Diego CA, US

Assignee:

Luxtera Inc. - Carlsbad CA

International Classification:

G02B 27/00, G02B 5/30, H01L 31/00, G02F 1/01, G01N 21/86, G01J 3/447

US Classification:

250551, 2502141, 250225, 25055909, 359484, 356327

Abstract:

Methods and systems for a light source assembly for coupling to a photonically enabled complementary metal-oxide semiconductor (CMOS) chip are disclosed. The light source assembly may comprise a laser, a microlens, a turning mirror, and an optical bench, and may generate an optical signal utilizing the laser, focus the optical signal utilizing the microlens, and reflect the optical signal at an angle defined by the turning mirror. The reflected optical signal may be transmitted out of the assembly to grating couplers in the photonically enabled CMOS chip. The assembly may comprise a non-reciprocal polarization rotator, comprising a latching faraday rotator. The assembly may comprise a reciprocal polarization rotator, which may comprise a half-wave plate comprising birefringent materials operably coupled to the optical bench. The turning mirror may be integrated in the optical bench and may reflect the optical signal to transmit through a lid operably coupled to the optical bench.

Method And System For A Multi-Core Fiber Connector

US Patent:

2013004, Feb 21, 2013

Filed:

Jun 27, 2012

Appl. No.:

13/535320

Inventors:

Peter DeDobbelaere - San Diego CA, US
Mark Peterson - San Diego CA, US
Steffen Gloeckner - San Diego CA, US

International Classification:

G02B 6/32

US Classification:

385 33

Abstract:

Methods and systems for a multi-core fiber connector are disclosed and may include communicating optical signals in a fiber comprising a multi-core. The connectors may comprise dimensions to fit one or more of: SC, LC, FC, or MU connectors. The optical signals may be collimated utilizing a lens in the connectors, and may comprise a graded-index (GRIN) lens or a ball lens. The connectors may comprise a ferrule assembly that encompasses an end of the optical fiber and is at least partially within a stem assembly. The ferrule assembly may comprise zirconia and the stem assembly may comprise stainless steel. The lens may be fixed adjacent to the ferrule assembly utilizing a stainless steel tube. The collimated optical signals may be communicated to a receiving lens that may focus the collimated optical signals onto a plurality of optical cores in a receiving optical fiber.

Method And System For A Light Source Assembly Supporting Direct Coupling To An Integrated Circuit

US Patent:

8168939, May 1, 2012

Filed:

Jul 9, 2009

Appl. No.:

12/500465

Inventors:

Assignee:

Luxtera, Inc. - Carlsbad CA

International Classification:

G02F 1/01, G01N 21/86, G02B 5/30, G01J 3/447

US Classification:

250225, 25055909, 359484, 356327

Abstract:

Methods and systems for a light source assembly supporting direct coupling to a photonically enabled complementary metal-oxide semiconductor (CMOS) chip are disclosed. The assembly may include a laser, a microlens, a turning mirror, reciprocal and/or non-reciprocal polarization rotators, and an optical bench. The laser may generate an optical signal that may be focused utilizing the microlens. The optical signal may be reflected at an angle defined by the turning mirror, and may be transmitted out of the light source assembly to one or more grating couplers in the chip. The laser may include a feedback insensitive laser. The light source assembly may include two electro-thermal interfaces between the optical bench, the laser, and a lid affixed to the optical bench. The turning mirror may be integrated in a lid affixed to the optical bench or may be integrated in the optical bench.

Integrated Transceiver With Lightpipe Coupler

US Patent:

8121447, Feb 21, 2012

Filed:

Jun 9, 2011

Appl. No.:

13/156894

Inventors:

Peter De Dobbelaere - San Diego CA, US
Thierry Pinguet - Cardiff-by-the-Sea CA, US
Mark Peterson - San Diego CA, US
Mark Harrison - Escondido CA, US

Assignee:

Luxtera, Inc. - Carlsbad CA

International Classification:

G02B 6/12, G02B 6/26, H05K 1/18

US Classification:

385 14, 385 15, 385 31, 361767

Abstract:

A transceiver comprising a plurality of CMOS chips may be operable to communicate an optical source signal from a semiconductor laser into a first CMOS chip via optical couplers. The optical source signal may be used to generate first optical signals that are transmitted from the first CMOS chip to optical fibers coupled to the first CMOS chip via one or more optical couplers. Second optical signals may be received from the optical fibers and converted to electrical signals via photodetectors in the first CMOS chip. The optical source signal may be communicated from the semiconductor laser into the first CMOS chip via optical fibers in to a top surface and the first optical signals may be communicated out of a top surface of the first CMOS chip. The electrical signals may be communicated to at least a second of the plurality of CMOS chips comprising electronic devices.

Novel Low-Cost Transceiver Approach

US Patent:

2012017, Jul 12, 2012

Filed:

Mar 16, 2012

Appl. No.:

13/422635

Inventors:

Peter De Dobbelaere - San Diego CA, US
Thierry Pinguet - Cadiff-by-th-Sea CA, US
Mark Peterson - San Diego CA, US
Mark Harrison - Escondido CA, US

International Classification:

H04B 10/14

US Classification:

398139

Abstract:

A transceiver comprising a plurality of CMOS chips, a first chip comprising optical and optoelectronic devices and at least a second chip comprising electronic devices may be operable to communicate an optical source signal from a semiconductor laser into the first CMOS chip. The optical source signal may be used to generate first optical signals that may be transmitted from the first CMOS chip to optical fibers. Second optical signals may be received from the optical fibers and converted to electrical signals via photodetectors. The optical source signal may be communicated from the semiconductor laser into the CMOS chip via optical fibers in to a top surface and the first optical signals may be communicated out of a top surface of the CMOS chip. The first optical signals may be communicated from the first CMOS chip via optical couplers, which may comprise grating couplers.

Neurophysiologic Monitoring System

US Patent:

2013009, Apr 11, 2013

Filed:

Aug 28, 2012

Appl. No.:

13/597160

Inventors:

James Gharib - San Diego CA, US
Allen Farquhar - San Diego CA, US
Doug Layman - San Diego CA, US
Thomas Scholl - San Diego CA, US
Albert Kim - San Diego CA, US
Albert Pothier - San Diego CA, US
Patrick Miles - San Diego CA, US
Josef Gorek - Oakland CA, US
Mark Peterson - San Diego CA, US

Assignee:

Nu Vasive Inc. - San Diego CA

International Classification:

A61B 5/04, A61B 5/0488

US Classification:

600546, 600554

Abstract:

The present invention relates to a system and methods generally aimed at surgery. More particularly, the present invention is directed at a system and related methods for performing surgical procedures and assessments involving the use of neurophysiology.