Lawrence Livermore National Lab

P.O.Box 808
Livermore, CA 94551

Corporate Partners

Faculty & Staff

Name Awards Latest
Strategic Insight, Ltd.
Arlington, VA
3 07/30/10
Metal Matrix Cast Composites, LLC (dba M
Waltham, MA
1 08/05/04
Argo Navis Technologies LLC
Annapolis, MD
1 01/01/13
Tungsten Graphics, Inc.
Cedar Park, TX
2 01/01/05
Rules-based Medicine, Inc.
Austin, TX
2 12/21/06
Spire Corp.
Bedford, MA
2 01/01/99
Polaronyx, Inc.
San Jose, CA
3 08/15/15
Vista Engineering Technologies, LLC
Richland, WA
1 01/01/06
Advanced Magnet Lab, Inc.
Melbourne, FL
1 01/01/04
Jamar Technology CO
San Diego, CA
1 07/23/97
AFS Trinity Power Corp.
Medina, WA
1 07/01/04
Integrated Optical Circuit Consultants
Cupertino, CA
1 08/26/94
Microassembly Technologies, Inc.
Richmond, CA
2 12/17/04
California Jamar, Inc.
San Diego, CA
1 01/14/99
Physical Sciences, Inc.
ANDOVER, MA
5 06/27/11
Makel Engineering, Inc.
Chico, CA
1 09/23/16
EM Photonics, Inc.
Newark, DE
1 08/23/06
Technical Data Analysis, Inc.
Falls Church, VA
1 06/16/16
Hypercomp, Inc.
Westlake Village, CA
1 07/01/08
Questek Innovations LLC
Evanston, IL
1 07/11/16
Kionix, Inc.
Ithaca, NY
1 08/06/04

33 Awards Won

Phase 1 STTR

Firm: Makel Engineering, Inc.

Institution: Lawrence Livermore National Lab

Agency: Department of Defense
Topic: DTRA16A-001
Budget: 09/23/16 - 04/25/17

This program will demonstrate how additive manufacturing technologies can be used with reactive and high energy materials to create rapid and flexible fabrication of payload and munitions. Our primary approach to this problem will be to use powder bed binder printing techniques to print reactive structures. The anticipated feedstock will consi...

Phase 1 STTR

Firm: Questek Innovations LLC

Institution: Lawrence Livermore National Lab

Agency: Navy
Topic: N16A-T022
Budget: 07/11/16 - 05/10/17

In this Phase I STTR program, QuesTek Innovations, a leader in the field of integrated computational materials engineering (ICME) teaming with Prof. W.E. King from Lawrence Livermore National Laboratory (LLNL) as QuesTeks academic partner, proposes expand the computational Materials by Design technology by developing an Integrated Model Toolkit ...

Phase 1 STTR

Firm: Technical Data Analysis, Inc.

Institution: Lawrence Livermore National Lab

Agency: Navy
Topic: N16A-T004
Budget: 06/16/16 - 01/31/17

TDA has teamed up with Lawrence Livermore National Laboratory as its research institution collaborator to address the target STTR topic objective of quantifying the uncertainties in the mechanical behavior of the AM parts. To quantify uncertainties by minimizing both the computational burden and expensive testing and also overcoming the IP conce...

Phase 2 STTR

Firm: Polaronyx, Inc.

Institution: Lawrence Livermore National Lab

Agency: Air Force
Topic: AF13-AT03
Budget: 08/15/15 - 08/15/17

We propose a new fiber WDM fabrication method for single mode high power fiber laser. Our new approach will enable kW operation for both single mode fiber WDM and PCF WDM. In Phase I, a proof of concept experiment has been demonstrated. In phase II, we will target at delivery of a reliable prototypes for both step index fiber WDM and PCF WDM.

Phase 1 STTR

Firm: Polaronyx, Inc.

Institution: Lawrence Livermore National Lab

Agency: National Aeronautics and Space Administration
Topic: T9.01
Budget: 06/17/15 - 06/17/16

Laser transmitters operating at a pulse repetition rate of 20 Hz to 50 Hz and with pulse energy from 30 - 50 mJ have been considered to be an enabling technology for CO2 measurement and optical communications. PolarOnyx proposes a novel approach targeting to make reliable high energy ultra large core fiber amplifier at 1.57 micron and employing ...

Phase 1 STTR

Firm: Polaronyx, Inc.

Institution: Lawrence Livermore National Lab

Agency: Air Force
Topic: AF13-AT03
Budget: 05/15/14 - 10/31/14

ABSTRACT: We propose a new fiber WDM fabrication method for single mode high power fiber laser. Our new approach will enable kW operation for both single mode fiber WDM and PCF WDM. At the end of Phase I, a proof of concept experiment will be demonstrated. In phase II, we will target at delivery of a reliable prototypes for both step index fiber...

Phase 1 STTR

Firm: Argo Navis Technologies LLC

Institution: Lawrence Livermore National Lab

Agency: Department of Energy
Topic: 02B-2013
Budget: 01/01/13 - 12/31/13

While there is no lack of performance counter tools for coarse-grained measurement of cache activity, there is a critical lack of tools for relating data layout to cache behavior to application performance. Generally, any nontrivial optimizations are either not done at all, or are done by hand requiring significant time and expertise. To the bes...

Phase 1 STTR

Firm: Physical Sciences, Inc.

Institution: Lawrence Livermore National Lab

Agency: Navy
Topic: N11A-T034
Budget: 06/27/11 - 04/27/12

RDX and HMX are energetic oxidizers with high energy density, but have moderate sensitivity to accidental detonation. The Navy requires new energetic oxidizers with performance comparable to or better than HMX and RDX, but with low sensitivity. Physical Sciences Inc. (PSI), and its partner, propose to synthesize and characterize a new triazine b...

Phase 1 STTR

Firm: Strategic Insight, Ltd.

Institution: Lawrence Livermore National Lab

Agency: Navy
Topic: N10A-T002
Budget: 07/30/10 - 02/28/11

The research objective is to develop a fully functional computational method for prediction of the after-burning effect of different fuels in a wide range of temperature, pressure, and turbulence regimes. Achievement of the objective requires understanding and modeling of key phenomena including (a) post-detonation response of the fuels, (b) nea...

Phase 1 STTR

Firm: Physical Sciences, Inc.

Institution: Lawrence Livermore National Lab

Agency: Navy
Topic: N09-T017
Budget: 06/29/09 - 04/30/10

Physical Sciences Inc. (PSI), and its team members, propose to synthesize and characterize new energetic compounds consisting of highly nitrated heterocycles as possible ammonium perchlorate (AP) replacement compounds. These compounds are over-oxidized organic compounds consisting of 1,1,1-trinitromethyl groups attached to an insensitive core he...

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