Federal Contractor Profile
Freedom Photonics LLC
$65M obligated·167 awards·5 agencies·11 NAICS
Federal Contracts
Showing contracts 151–200 of 220 total. Sorted by action date, most recent first. Excludes $0 modifications.
| Date | Agency | PIID | NAICS | Description | Amount |
|---|---|---|---|---|---|
| Jul 23, 2018 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014718C7434 | 541715 | SBIR/STTR PHASE I RESEARCH&DEVELOPMENT - ADVANCED HIGH END GYROSCOPES FOR SMALL FORM FACTOR INERTIAL MEASUREMENT UNIT APPLICATIONS | $100K |
| Jul 18, 2018 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | 80NSSC18P2005 | 541715 | THE GOAL OF THIS PROGRAM IS TO DEVELOP HIGH PERFORMANCE, HIGH SPEED, INTEGRATED OPTICAL SWITCHES FOR APPLICATIONS REQUIRING THE SWITCHING OF FOUR LASERS INTO ONE PM FIBER. THESE SWITCHES WILL BE OF SMALL SIZE AND WEIGHT GIVEN THAT THEY WILL BE FABRICATED AS A PHOTONIC INTEGRATED CIRCUIT (PIC) AND WILL BE DESIGNED TO MEET THE FOLLOWING TARGET SPECIFICATIONS: FOUR INPUT CHANNELS AND ONE OUTPUT CHANNEL CROSS-TALK BETWEEN CHANNELS BETTER THAN 30 DB NET OPTICAL GAIN THROUGH SWITCH SWITCHING SPEED<1 S SWITCHING RATE OF ~1-3 KHZ THE OPTICAL SWITCH WILL BE BASED ON SEMICONDUCTOR OPTICAL AMPLIFIERS (SOAS) AND A PASSIVE COMBINER. THE SOA HAS IN PREVIOUS DEMONSTRATIONS BEEN PROVEN TO MEET THE TARGET SPEED, GAIN AND CONTRAST REQUIREMENTS OF THIS EFFORT. | $125K |
| Jun 14, 2018 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833518C0510 | 541715 | RESEARCH AND DEVELOPMENT IGF::OT::IGF | $125K |
| Jun 7, 2018 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833517C0259 | 541712 | IGF::OT::IGF RESEARCH AND DEVELOPMENT | $375K |
| May 10, 2018 | Department of DefenseFA9453 AFRL RVK | FA945318C0040 | 541715 | IGF::OT::IGF MANUFACTURABLE, MINIATURE, RADIATION HARD DIODE LASER MODULE FOR COLD ATOM APPLICATIONS | $230K |
| Apr 13, 2018 | Department of DefenseNAVAL RESEARCH LABORATORY | N0017318P0667 | 334413 | PHOTODIODE PR# 56-9524-18 | $14K |
| Apr 9, 2018 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | 80NSSC18C0073 | 541715 | THE OBJECTIVE OF THIS PROGRAM IS TO DEVELOP, DEMONSTRATE AND IMPLEMENT A 1550-NM SENSITIVE PHOTON-COUNTING DETECTOR ARRAY WITH MONOLITHICALLY INTEGRATED TIME-TAGGING ELECTRONICS, SUITABLE FOR FREE-SPACE OPTICAL COMMUNICATIONS, WHERE HIGH DATA VOLUME RETURNS FROM SPACE MISSIONS ARE CRITICAL, SUCH AS IN THE LUNAR LASER COMMUNICATION DEMONSTRATION (LLCD) AND OTHER FUTURE NASA MISSIONS. CONVENTIONAL PHOTON COUNTING DETECTOR ARRAYS ARE IMPLEMENTED IN EITHER SILICON (SI) OR MERCURY CADMIUM TELLURIDE (HGCDTE), NEGATING DETECTION AT 1550 NM IN THE CASE OF SI OR INCURRING HIGH COST AND COMPLEXITY FOR HGCDTE. IN THIS PROGRAM, FREEDOM PHOTONICS WILL PARTNER WITH THE UNIVERSITY OF NEVADA LAS VEGAS (UNLV) AND ARIZONA STATE UNIVERSITY (ASU) TO DEVELOP A NOVEL GEIGER-MODE AVALANCHE PHOTODIODE (APD) ARRAYRECEIVER FOR PHOTON COUNTING APPLICATIONS WITH SENSITIVITY FOR WAVELENGTHS IN THE RANGE FROM 1000 NM TO 1600 NM, WHICH UTILIZES STANDARD CMOS PROCESSING FOR ELECTRONICS, COUPLED WITH SELECTIVE GROWTH OF APDS IN THE SIGESN MATERIALS SYSTEM, RESULTING IN A LOW-COST, HIGH-SENSITIVITY, HIGH-SPEED AND RADIATION HARD RECEIVER FOR LONG-RANGE OPTICAL COMMUNICATIONS. | $750K |
| Mar 5, 2018 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833517C0479 | 541712 | IGF::OT::IGF | $100K |
| Feb 28, 2018 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833517C0430 | 541712 | PROGRESS REPORT IGF::OT::IGF | $100K |
| Feb 27, 2018 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833518C0089 | 541715 | RESEARCH AND DEVELOPMENT, SBIR PHASE II, IGF::OT::IGF | $375K |
| Dec 28, 2017 | Department of DefenseNAVAL RESEARCH LABORATORY | N0017316C6007 | 541712 | IGF::OT::IGF 56-9502-16 VERTICALLY ILLUMINATED RUGGED PHOTODIODES BAA | $368K |
| Dec 21, 2017 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833515C0308 | 541712 | SBIR PHASE II RESEARCH&DEVELOPMENT ''IGF::OT::IGF'' | $250K |
| Nov 27, 2017 | National Aeronautics and Space AdministrationNASA GODDARD SPACE FLIGHT CENTER | NNG16HS06C | 541712 | IGF::OT::IGF NASA RESEARCH ANNOUNCEMENT AWARD - ADVANCED TUNABLE SEED LASER EFFORT TO BE CONDUCTED UNDER THIS CONTRACT: THE GOAL OF THIS EFFORT IS TO ACHIEVE A LOW COST, SIZE, WEIGHT AND POWER SEED DIODE LASER THAT WILL TIP THE SCALES FOR MARKET PENETRATION OF METHANE DETECTION SYSTEMS IN COMMERCIAL AND GOVERNMENT APPLICATIONS, INCLUDING NATIONAL AERONAUTICS AND SPACE ADMINISTRATION (NASA) REMOTE SENSING APPLICATIONS. THIS LASER REPRESENTS A TIPPING POINT TECHNOLOGY IMPROVEMENT IN THE SEED LASER TECHNOLOGY AND WILL ENABLE SEVERAL DIFFERENT ROBUST AND COMPACT IMPLEMENTATIONS OF A LIDAR TRANSMITTERS FOR A METHANE INSTRUMENT, NEEDED FOR HIGH SPATIAL RESOLUTION, ACCURACY AND PRECISION MEASUREMENTS FROM ORBIT OR FROM UAV PLATFORMS. THE SAME TECHNOLOGY HAS SEVERAL COMMERCIAL APPLICATIONS SUCH AS PIPELINE LEAK DETECTION AND METHANE STORAGE FACILITIES MONITORING. THIS EFFORT IS THE RESULT OF A PROPOSAL SUBMITTED BY FREEDOM PHOTONICS FOR AWARD UNDER THE NASA HEADQUARTERS SPACE TECHNOLOGY MISSION DIRECTORATE (STMD) NASA RESEARCH ANNOUNCEMENT (NRA) ENTITLED SPACE TECHNOLOGY RESEARCH, DEVELOPMENT, DEMONSTRATION, AND INFUSION 2015, APPENDIX NNH15ZOA001N-15STMD-001. OVERSIGHT FOR THIS DEVELOPMENT EFFORT WILL BE THROUGH STMDS GAME CHANGING DEVELOPMENT (GCD) PROGRAM OFFICE. THE SCOPE OF THIS EFFORT IS AS FOLLOWS: FREEDOM PHOTONICS WILL WORK IN COLLABORATION WITH OUR NASA GODDARD SPACE FLIGHT CENTER (GSFC) PARTNERS TO DEVELOP A SEED LASER TO BE USED IN THE EXISTING GSFC METHANE LIDAR TO DEMONSTRATE AND VALIDATE METHANE MEASUREMENTS ON THE GROUND AND FROM AN AIRBORNE PLATFORM (IF POSSIBLE). THE LASER WILL BE ELECTRICALLY FAST-TUNABLE AROUND THE METHANE ABSORPTION LINE AND IT WILL GENERATE OPTICAL POWER WITH A NARROW LINEWIDTH. THE LASER WILL CONSIST OF A FAST TUNABLE DBR LASER INTEGRATED WITH A HIGH-POWERED, TAPERED OPTICAL AMPLIFIER, USING BUTT-JOINT GROWTH TECHNOLOGY. THIS EFFORT WILL CULMINATE WITH HARDWARE DELIVERABLES TO GSFC MEETING APPLICATION PERFORMANCE REQUIREMENTS. | $273K |
| Nov 8, 2017 | Department of DefenseFA8650 USAF AFMC AFRL PZL AFRL/PZL | FA865018C1152 | 541715 | IGF::OT::IGF LOW-DEFECT GESN AND SIGESN FOR INTEGRATED HIGH-PERFORMANCE SWIR AND MWIR OPTOELECTRONICS | $750K |
| Nov 7, 2017 | Department of DefenseFA9453 AFRL RVK | FA945318C0040 | 541715 | IGF::OT::IGF MANUFACTURABLE, MINIATURE, RADIATION HARD DIODE LASER MODULE FOR COLD ATOM APPLICATIONS | $250K |
| Nov 7, 2017 | Department of DefenseFA9453 AFRL RVK | FA945318C0040 | 541715 | IGF::OT::IGF MANUFACTURABLE, MINIATURE, RADIATION HARD DIODE LASER MODULE FOR COLD ATOM APPLICATIONS | $216K |
| Oct 17, 2017 | Department of DefenseW6QK ACC-ORLANDO | W900KK15C0013 | 541712 | IGF::OT::IGF FREEDOM PHOTONICS SBIR PHASE II, MILES GEAR UPGRADE. | $60K |
| Sep 26, 2017 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833517C0114 | 541712 | RESEARCH&DEVELOPMENT IGF::OT::IGF | $125K |
| Sep 25, 2017 | Department of DefenseW6QK ACC-ORLANDO | W900KK15C0013 | 541712 | IGF::OT::IGF FREEDOM PHOTONICS SBIR PHASE II, MILES GEAR UPGRADE. | $940K |
| Sep 21, 2017 | Department of DefenseNSWC DAHLGREN | N0017817C1119 | 541712 | IGF::OT::IGF STATUS REPORT | $125K |
| Sep 13, 2017 | Department of DefenseFA9451 AFRL RDK | FA945117C0103 | 541712 | IGF::OT::IGF NEXT GENERATION HIGH EFFICIENCY DIODE LASERS | $298K |
| Sep 11, 2017 | Department of DefenseFA9451 AFRL RDK | FA945117F0022 | 541712 | IGF::OT::IGF HIGH POWER SEMICONDUCTOR LASERS FOR HIGH TEMPERATURE OPERATION | $263K |
| Sep 7, 2017 | Department of DefenseFA9300 AFTC PZR | FA930017P1010 | 541711 | IGF::OT::IGF FIBER OPTIC SENSING SYSTEMS (FOSS) FOR EXPENDABLE LAUNCH VEHICLES | $150K |
| Sep 6, 2017 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | 80NSSC17C0036 | 541712 | IGF::OT::IGFNEXT GENERATION OPTICAL MODEMS FOR NASA WILL BE BASED ON THE RZ-DPSK MODULATION FORMAT. THIS MODULATION FORMAT IS ROBUST, DELIVERS HIGH QUANTUM EFFICIENCY AND ALLOWS BURST-MODE OPERATION, KEY WHEN USING A POWER LIMITED TRANSMITTER IN COMBINATION WITH A FIXED DELAY LINE DPSK DEMODULATOR. FREEDOM PHOTONICS APPROACH IN THIS PROPOSED PROGRAM IS TO INTEGRATE THE LASER, MODULATOR, AND AMPLIFIER INTO A SINGLE TRANSMITTER PHOTONIC INTEGRATED CIRCUIT (PIC). PHOTONIC INTEGRATION REDUCES THE COST, SIZE, WEIGHT, AND POWER (C-SWAP) OF THE TRANSMITTER OPTICAL COMPONENT SO THAT THEY CAN FIT INTO A PACKAGE THE SIZE OF A HALF-DOLLAR COIN OR SMALLER. IT WILL BE REALIZED USING AN INDIUM PHOSPHIDE PHOTONIC INTEGRATION PLATFORM, WELL SUITED FOR SPACE APPLICATION. THE PHASE II EFFORT WILL CULMINATE IN A FSO DEMONSTRATION IN A LABORATORY ENVIRONMENT DEMONSTRATING TRANSMISSION OF RZ-DPSK SIGNALS. | $750K |
| Aug 17, 2017 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833517C0123 | 541712 | SBIR PHASE III TOPIC N151-018 IGF::OT::IGF | $1.9M |
| Aug 3, 2017 | Department of DefenseDEFENSE MICROELECTRONICS ACTIVITY | HQ072717C0002 | 541712 | IGF::OT::IGF SBIR 14.2, PHASE II EFFORT | $1000K |
| Jul 25, 2017 | Department of DefenseW6QK ACC-APG DURHAM | W911NF17P0061 | 541712 | IGF::OT::IGF SBIR PHASE I | $100K |
| Jul 25, 2017 | Department of DefenseW6QK ACC-APG DURHAM | W911NF17P0067 | 541712 | IGF::OT::IGF PHASE I FIRST MONTHLY TECHNICAL REPORT | $100K |
| Jul 20, 2017 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833517C0123 | 541712 | SBIR PHASE III TOPIC N151-018 IGF::OT::IGF | $225K |
| Jul 6, 2017 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833516C0425 | 541712 | RESEARCH AND DEVELOPMENT IGF::OT::IGF | $70K |
| Jun 20, 2017 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833517C0259 | 541712 | IGF::OT::IGF RESEARCH AND DEVELOPMENT | $375K |
| Jun 6, 2017 | Department of DefenseFA9451 AFRL RDK | FA945117F0022 | 541712 | IGF::OT::IGF HIGH POWER SEMICONDUCTOR LASERS FOR HIGH TEMPERATURE OPERATION | $250K |
| May 31, 2017 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833517C0479 | 541712 | IGF::OT::IGF | $125K |
| May 25, 2017 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833517C0430 | 541712 | PROGRESS REPORT IGF::OT::IGF | $125K |
| May 22, 2017 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | NNX17CD12P | 541712 | IGF::OT::IGF STRUCTURAL HEALTH MONITORING IS CRITICAL CAPABILITY FOR NASA, AND IT IS REQUIRED FOR LAUNCH VEHICLES, SPACE VEHICLES, RE-ENTRY VEHICLES, VEHICLE PRESSURE SYSTEMS, SPACE STATION, AS WELL AS IN FLIGHT RESEARCH. HEALTH MONITORING SYSTEMS NEED TO HAVE FAST AND ROBUST DATA ACQUISITION AND MANAGEMENT, LOW VOLUME, MINIMAL INTRUSION, AND HIGH ACCURACY AND RELIABILITY. ARMSTRONG FLIGHT RESEARCH CENTER HAS DEVELOPED A REVOLUTIONARY 4-FIBER INTERROGATION SYSTEM FOR FIBER OPTIC SMART STRUCTURES (FOSS) SENSOR NETWORKS INTERROGATION. THIS SYSTEM MEETS THE REQUIRED SPECIFICATIONS ON THE SENSING SIDE, HOWEVER, ITS SIZE, WEIGHT, POWER CONSUMPTION, FRAGILITY AND COST MAKE IT PROHIBITIVE FOR THE MASSIVE DEPLOYMENT INTO AIR VEHICLES. IN THIS PROGRAM, WE ARE PROPOSING TO DEVELOP AND INTEGRATE ALL OPTICAL FUNCTIONS NEEDED TO ENABLE NEXT GENERATION OF MINIATURIZED, LOW-COST NASA'S FOSS INTERROGATOR SYSTEMS. THROUGH INNOVATIVE PHOTONIC INTEGRATION OF KEY FUNCTIONS, AND HYBRID PACKAGING USING INTERPOSER TECHNOLOGY, WE ANTICIPATE THAT THE SIZE OF THE EXISTING SYSTEM WILL BE REDUCED BY TWO AND COST BY ONE ORDER OF MAGNITUDE. THIS, IN TURN, WILL FULFILL ONE OF THE KEY REQUIREMENTS OF THE SOLICITATION, YIELDING A MINIATURIZED FIBER OPTIC MEASUREMENT SYSTEM WITH LOW POWER SUITABLE FOR MIGRATION INTO PLATFORMS SPANNING FROM LAUNCH VEHICLES, REENTRY VEHICLES, TO UAS PLATFORMS OR AVIATION. | $125K |
| May 17, 2017 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | NNX17CG42P | 541712 | IGF::OT::IGF IN THIS WORK, FREEDOM PHOTONICS WILL TEAM WITH UNIVERSITY OF CALIFORNIA, SANTA BARBARA TO DEVELOP A HYBRID INTEGRATION PLATFORM THAT INTEGRATES YIELDED, BEST-OF-BREED ACTIVE OPTICAL COMPONENTS WITH LOW-COST, HIGH FUNCTIONALITY SILICON PHOTONICS COMPONENTS IN A MANNER THAT IS COMPATIBLE WITH FOUNDRY FABRICATION. THIS WILL BE PERFORMED IN A HIGHLY MANUFACTURABLE MANNER, USING PASSIVELY ALIGNED PICK-AND-PLACE TECHNOLOGY TO PLACE THE SEMICONDUCTOR COMPONENTS ON THE INTERPOSER SUBSTRATE TO FORM A SYSTEM IN PACKAGE-TYPE OF INTEGRATION PLATFORM FOR SPACE PHOTONIC APPLICATIONS. THE APPROACH IS BASED ON A NOVEL 3D HYBRID INTEGRATION APPROACH DEVELOPED AT UCSB THAT IS SCALABLE, LOW COST, RELIABLE, AND THAT DEMONSTRATES SUPERIOR THERMAL PERFORMANCE. | $125K |
| May 17, 2017 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | NNX17CG41P | 541712 | IGF::OT::IGF THE OBJECTIVE OF THIS PROGRAM IS TO DEVELOP, DEMONSTRATE AND IMPLEMENT A PHOTON-COUNTING DETECTOR ARRAY SENSITIVE IN THE WAVELENGTH RANGE FROM 1000 NM TO 1600 NM, WITH MONOLITHICALLY INTEGRATED TIME-TAGGING ELECTRONICS, SUITABLE FOR FREE-SPACE OPTICAL COMMUNICATIONS, WHERE HIGH DATA VOLUME RETURNS FROM SPACE MISSIONS ARE CRITICAL, SUCH AS IN THE LUNAR LASER COMMUNICATION DEMONSTRATION (LLCD) AND OTHER FUTURE NASA MISSIONS. CONVENTIONAL PHOTON COUNTING DETECTOR ARRAYS ARE IMPLEMENTED IN EITHER SILICON (SI) OR MECURY CADMIUM TELLURIDE (HGCDTE), NEGATING DETECTION AT WAVELENGTHS LONGER THAN ABOUT 1000 NM IN THE CASE OF SI OR INCURRING HIGH COST AND COMPLEXITY FOR HGCDTE. IN THIS PROGRAM, FREEDOM PHOTONICS WILL DEVELOP A NOVEL GEIGER-MODE SILICON GERMANIUM (SIGE) RECEIVER FOR PHOTON COUNTING APPLICATIONS WITH INCREASED SENSITIVITY FOR WAVELENGTHS IN THE RANGE OF 1000 NM TO 1600 NM, WHICH UTILIZES STANDARD BICMOS PROCESS, RESULTING IN A LOW-COST, HIGH-SENSITIVITY, HIGH-SPEED AND RADIATION HARD RECEIVER FOR LONG-RANGE OPTICAL COMMUNICATIONS. | $125K |
| May 3, 2017 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833517C0198 | 541712 | ''IGF::OT::IGF'' RESEARCH AND DEVELOPMENT | $373K |
| Apr 14, 2017 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | NNX17CG18C | 541712 | IGF::OT::IGF IN THIS PROGRAM, FREEDOM PHOTONICS IS DEVELOPING A LOW COST, SEMICONDUCTOR BASED WIDELY TUNABLE LASER FOR MULTIPLE GREEN GAS DETECTION. THIS LASER SOURCE CAN BE USED IN DIFFERENT LIDAR APPLICATIONS, OR IN ANY GAS SENSING SCHEME USING SPECTROSCOPY. | $750K |
| Apr 6, 2017 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | NNX17CD05C | 541712 | IGF::OT::IGF DRYDEN (ARMSTRONG) FLIGHT RESEARCH CENTER HAS DEVELOPED A 4-FIBER INTERROGATION SYSTEM FOR FIBER OPTIC SMART STRUCTURES (FOSS) SENSOR NETWORKS INTERROGATION. REPLACING THE EXPENSIVE, BULKY, MECHANICALLY TUNED SWEPT LASER TECHNOLOGY USED IN THE FOS SYSTEM WILL HELP REDUCE THE SYSTEM COST, SIZE AND WEIGHT, AND ENABLE MASSIVE DEPLOYMENT. IN THIS PROGRAM, FREEDOM PHOTONICS PROPOSES TO DEVELOP A NOVEL, INEXPENSIVE SEMICONDUCTOR BASED WIDELY TUNABLE LASER, WHICH CAN BE TUNED USING SIMPLE TUNING ALGORITHMS AND CONTROL. | $750K |
| Jan 18, 2017 | National Aeronautics and Space AdministrationNASA GODDARD SPACE FLIGHT CENTER | NNG16HS06C | 541712 | IGF::OT::IGF NASA RESEARCH ANNOUNCEMENT AWARD - ADVANCED TUNABLE SEED LASER EFFORT TO BE CONDUCTED UNDER THIS CONTRACT: THE GOAL OF THIS EFFORT IS TO ACHIEVE A LOW COST, SIZE, WEIGHT AND POWER SEED DIODE LASER THAT WILL TIP THE SCALES FOR MARKET PENETRATION OF METHANE DETECTION SYSTEMS IN COMMERCIAL AND GOVERNMENT APPLICATIONS, INCLUDING NATIONAL AERONAUTICS AND SPACE ADMINISTRATION (NASA) REMOTE SENSING APPLICATIONS. THIS LASER REPRESENTS A TIPPING POINT TECHNOLOGY IMPROVEMENT IN THE SEED LASER TECHNOLOGY AND WILL ENABLE SEVERAL DIFFERENT ROBUST AND COMPACT IMPLEMENTATIONS OF A LIDAR TRANSMITTERS FOR A METHANE INSTRUMENT, NEEDED FOR HIGH SPATIAL RESOLUTION, ACCURACY AND PRECISION MEASUREMENTS FROM ORBIT OR FROM UAV PLATFORMS. THE SAME TECHNOLOGY HAS SEVERAL COMMERCIAL APPLICATIONS SUCH AS PIPELINE LEAK DETECTION AND METHANE STORAGE FACILITIES MONITORING. THIS EFFORT IS THE RESULT OF A PROPOSAL SUBMITTED BY FREEDOM PHOTONICS FOR AWARD UNDER THE NASA HEADQUARTERS SPACE TECHNOLOGY MISSION DIRECTORATE (STMD) NASA RESEARCH ANNOUNCEMENT (NRA) ENTITLED SPACE TECHNOLOGY RESEARCH, DEVELOPMENT, DEMONSTRATION, AND INFUSION 2015, APPENDIX NNH15ZOA001N-15STMD-001. OVERSIGHT FOR THIS DEVELOPMENT EFFORT WILL BE THROUGH STMDS GAME CHANGING DEVELOPMENT (GCD) PROGRAM OFFICE. THE SCOPE OF THIS EFFORT IS AS FOLLOWS: FREEDOM PHOTONICS WILL WORK IN COLLABORATION WITH OUR NASA GODDARD SPACE FLIGHT CENTER (GSFC) PARTNERS TO DEVELOP A SEED LASER TO BE USED IN THE EXISTING GSFC METHANE LIDAR TO DEMONSTRATE AND VALIDATE METHANE MEASUREMENTS ON THE GROUND AND FROM AN AIRBORNE PLATFORM (IF POSSIBLE). THE LASER WILL BE ELECTRICALLY FAST-TUNABLE AROUND THE METHANE ABSORPTION LINE AND IT WILL GENERATE OPTICAL POWER WITH A NARROW LINEWIDTH. THE LASER WILL CONSIST OF A FAST TUNABLE DBR LASER INTEGRATED WITH A HIGH-POWERED, TAPERED OPTICAL AMPLIFIER, USING BUTT-JOINT GROWTH TECHNOLOGY. THIS EFFORT WILL CULMINATE WITH HARDWARE DELIVERABLES TO GSFC MEETING APPLICATION PERFORMANCE REQUIREMENTS. | $800K |
| Nov 9, 2016 | Department of DefenseW6QK ACC-RSA | W31P4Q17C0026 | 541712 | IGF::OT::IGF DARPA SBIR PHASE I WITH FREEDOM PHOTONICS LLC | $100K |
| Oct 25, 2016 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833517C0114 | 541712 | RESEARCH&DEVELOPMENT IGF::OT::IGF | $375K |
| Sep 30, 2016 | Department of DefenseFA9550 AFRL AFOSR | FA955016C0035 | 541712 | IGF::OT::IGF (SBIR PHASE I) "HIGH PERFORMANCE, HIGH YIELD RF PHOTONIC INTEGRATION PLATFORM" | $150K |
| Sep 19, 2016 | Department of DefenseNAVAL RESEARCH LABORATORY | N0017316C6007 | 541712 | IGF::OT::IGF 56-9502-16 VERTICALLY ILLUMINATED RUGGED PHOTODIODES BAA | $500K |
| Sep 8, 2016 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833516C0425 | 541712 | RESEARCH AND DEVELOPMENT IGF::OT::IGF | $80K |
| Aug 25, 2016 | Department of DefenseNAVAL RESEARCH LABORATORY | N0017316P3112 | 334413 | PLANAR LIGHTWAVE CIRCUITS | $25K |
| Aug 22, 2016 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833515C0308 | 541712 | SBIR PHASE II RESEARCH&DEVELOPMENT ''IGF::OT::IGF'' | $375K |
| Aug 12, 2016 | National Aeronautics and Space AdministrationNASA GODDARD SPACE FLIGHT CENTER | NNG16HS06C | 541712 | IGF::OT::IGF NASA RESEARCH ANNOUNCEMENT AWARD - ADVANCED TUNABLE SEED LASER EFFORT TO BE CONDUCTED UNDER THIS CONTRACT: THE GOAL OF THIS EFFORT IS TO ACHIEVE A LOW COST, SIZE, WEIGHT AND POWER SEED DIODE LASER THAT WILL TIP THE SCALES FOR MARKET PENETRATION OF METHANE DETECTION SYSTEMS IN COMMERCIAL AND GOVERNMENT APPLICATIONS, INCLUDING NATIONAL AERONAUTICS AND SPACE ADMINISTRATION (NASA) REMOTE SENSING APPLICATIONS. THIS LASER REPRESENTS A TIPPING POINT TECHNOLOGY IMPROVEMENT IN THE SEED LASER TECHNOLOGY AND WILL ENABLE SEVERAL DIFFERENT ROBUST AND COMPACT IMPLEMENTATIONS OF A LIDAR TRANSMITTERS FOR A METHANE INSTRUMENT, NEEDED FOR HIGH SPATIAL RESOLUTION, ACCURACY AND PRECISION MEASUREMENTS FROM ORBIT OR FROM UAV PLATFORMS. THE SAME TECHNOLOGY HAS SEVERAL COMMERCIAL APPLICATIONS SUCH AS PIPELINE LEAK DETECTION AND METHANE STORAGE FACILITIES MONITORING. THIS EFFORT IS THE RESULT OF A PROPOSAL SUBMITTED BY FREEDOM PHOTONICS FOR AWARD UNDER THE NASA HEADQUARTERS SPACE TECHNOLOGY MISSION DIRECTORATE (STMD) NASA RESEARCH ANNOUNCEMENT (NRA) ENTITLED SPACE TECHNOLOGY RESEARCH, DEVELOPMENT, DEMONSTRATION, AND INFUSION 2015, APPENDIX NNH15ZOA001N-15STMD-001. OVERSIGHT FOR THIS DEVELOPMENT EFFORT WILL BE THROUGH STMDS GAME CHANGING DEVELOPMENT (GCD) PROGRAM OFFICE. THE SCOPE OF THIS EFFORT IS AS FOLLOWS: FREEDOM PHOTONICS WILL WORK IN COLLABORATION WITH OUR NASA GODDARD SPACE FLIGHT CENTER (GSFC) PARTNERS TO DEVELOP A SEED LASER TO BE USED IN THE EXISTING GSFC METHANE LIDAR TO DEMONSTRATE AND VALIDATE METHANE MEASUREMENTS ON THE GROUND AND FROM AN AIRBORNE PLATFORM (IF POSSIBLE). THE LASER WILL BE ELECTRICALLY FAST-TUNABLE AROUND THE METHANE ABSORPTION LINE AND IT WILL GENERATE OPTICAL POWER WITH A NARROW LINEWIDTH. THE LASER WILL CONSIST OF A FAST TUNABLE DBR LASER INTEGRATED WITH A HIGH-POWERED, TAPERED OPTICAL AMPLIFIER, USING BUTT-JOINT GROWTH TECHNOLOGY. THIS EFFORT WILL CULMINATE WITH HARDWARE DELIVERABLES TO GSFC MEETING APPLICATION PERFORMANCE REQUIREMENTS. | $572K |
| Jul 20, 2016 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833515C0398 | 541712 | SBIR PI R&D. IGF::OT::IGF | $70K |
Get Alerted Before Freedom Photonics LLC's Next Recompete
Mindy monitors active contracts and flags recompetes 12 months out so you can position to compete.
Start Free