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Company Information:

Company Name: Quantum Technology Sciences, Inc.
City: Cocoa Beach
State: FL
Zip+4: -
Woman-Owned: No
Minority-Owned: No
HUBZone-Owned: No
Website URL: http://www.qtsi.com
Phone: (321) 868-0288

Award Totals:

Program/Phase Award Amount ($) Number of Awards
SBIR Phase I $453,456.00 7
SBIR Phase II $727,235.00 1
STTR Phase I $99,920.00 1

Award List:

TUNABLE SOLID STATE LASER SOURCE

Award Year / Program / Phase: 1987 / SBIR / Phase I
Agency / Branch: DOD / ARMY
Principal Investigator: Dr r s adhav
Award Amount: $49,500.00
Abstract:
The new non-linear crystal beta-barium borate (b-bab(2)o(4), bbo) has been recently identified as a very promising material for nonlinear frequency conversion, and optical parametric oscillation. it is indeed an excellent material for producing tunable laser radiation from 400 to 700nm when it is… More

BBO AS A POCKELS CELL FOR EXCIMER LASERS

Award Year / Program / Phase: 1992 / SBIR / Phase I
Agency: NSF
Principal Investigator: Dr. Ratan S. Adhav , Director Of Research
Award Amount: $49,998.00
Abstract:
A novel nonlinear crystal, beta-barium borate (bbo), is proposed to be used as a pockels cell for excimer lasers operating at 248 nm for the generation of high peak intensities. at present, a variety of material related problems of existing commercial pockels cells have limited their use below 300… More

High Repetition Rate 100w Average Power BBO Q-switch For Nd:YAG

Award Year / Program / Phase: 1993 / SBIR / Phase I
Agency / Branch: DOD / MDA
Principal Investigator: Ratan Adhav, Phd
Award Amount: $49,995.00
Abstract:
IN PHASE I OF THIS PROPOSAL WE WISH TO INVESTIGATE A NEW MATERIAL B-BBO AS HIGH AVERAGE POWER AND HIGH PEAK POWER ELECTRO-OPTIC INTRACAVITY POCKELS CELL. SUCH A DEVICE IS REQUIRED FOR DIODE-PUMPED Nd:YAG SOLID-STATE LASERS FOR HANDLING CIRCULATING POWERS UPTO 100 WATTS. PRESENT MATERIALS ARE LIMITED… More

Growth and Characterization of Lead Tetraborate and Strontium Tetraborate for UV Modulation

Award Year / Program / Phase: 1995 / SBIR / Phase I
Agency: NSF
Principal Investigator: Ratan Adhav
Award Amount: $65,000.00

N/A

Award Year / Program / Phase: 2000 / STTR / Phase I
Agency: NASA
Research Institution: Florida Institute of Technology
Principal Investigator:
Award Amount: $99,920.00
RI Contact: N/A

Enhanced Propeller Visibility

Award Year / Program / Phase: 2002 / SBIR / Phase I
Agency / Branch: DOD / NAVY
Principal Investigator: Jeffrey R. Cavins, Chief, Engineering Div.
Award Amount: $69,565.00
Abstract:
The Navy has identified a requirement for enhancing propeller visibility for personnel safety on carrier-based aircraft such as the E-2C and C-2A aircraft under nighttime or inclement weather conditions. After careful consideration QTSI has developed anapproach based on using scanning laser diodes… More

RASA Prognostics from State of Health (SOH) Modeling

Award Year / Program / Phase: 2004 / SBIR / Phase I
Agency: DOE
Principal Investigator: Kevin D. Hutchenson, Dr.
Award Amount: $99,604.00
Abstract:
75406-Radionuclide Aerosol Sampler/Analyzer (RASA) units are deployed in many parts of the world by the United States and other countries for the monitoring of nuclear explosions. Although raw State of Health (SOH) information is available for many of these units, no methodology exists to exploit… More

Optimally Designed Wireless Seismic/Acoustic Ordna

Award Year / Program / Phase: 2009 / SBIR / Phase I
Agency / Branch: DOD / ARMY
Principal Investigator: Larry Sills, Program Manager
Award Amount: $69,794.00
Abstract:
There is great need for safe, cost-effective methods to deal with the issue of unexploded ordnance (UXO) on mortar and artillery ranges. Quantum Technology Sciences, Inc. (QTSI) has been developing a Seismic-Acoustic Impact Monitoring Assessment (SAIMA) system for this purpose based on a wired… More

Mortar and Artillery Round Impact Assessment System

Award Year / Program / Phase: 2011 / SBIR / Phase II
Agency: DOD
Principal Investigator: Ray Conner, PM – (321) 868-0288
Award Amount: $727,235.00
Abstract:
The development of a seismic-acoustic wireless multi-sensor arrays system that can automatically detect ordnance rounds impacting the ground, classify them as high-order, low-order, or dud/UXO, and locate the impact site to within 2 meters will provide the DoD a new strategic approach to the massive… More