Femto Technologies Inc.

UNITED STATES PHILADELPHIA MINT THREE (3) ACSYS PIRANHA FEMTO LASERS FOR DESIGN ENGRAVING.

ROBUST TRANSCEIVER MODULES FOR FEMTOSECOND-LEVEL, FREE-SPACE OPTICAL TIME AND FREQUENCY TRANSFER TO MOBILE PLATFORMS

SBIR/STTR PHASE II R&D HYBRID ELECTRONICS PACKAGING PLATFORM FOR EXTREME ENVIRONMENT MICROELECTRONIC COMPONENTS

STTR PHASE II R&D: DESIGN AND FABRICATION OF NOVEL RADIATION IMMUNE VACUUM MICROELECTRONIC DEVICES AND CIRCUITS

SUPPLIES FOR ALCON ALLEGRETTO LASER EX-500 AND ALCON FEMTOSECOND LASER FS-200.

IGF::OT::IGF NUMEROUS GROUND-TEST AND WIND-TUNNEL FACILITIES ARE USED EXTENSIVELY TO MAKE SURFACE MEASUREMENTS OF AND TO CHARACTERIZE THE FORCES AND MOMENTS ENCOUNTERED BY AERONAUTICS TEST ARTICLES. QUANTITATIVE RESULTS IN THESE TEST ENVIRONMENTS ARE REQUIRED TO VALIDATE THE COMPUTATIONAL FLUID DYNAMICS (CFD) TOOLS THAT ARE USED TO EXTRAPOLATE WIND-TUNNEL DATA TOWARD REALISTIC FLIGHT CONDITIONS AND HARDWARE. THE DEVELOPMENT OF FAST INSTRUMENTATION AND MEASUREMENT CAPABILITIES THAT CAN READILY BE INTEGRATED INTO THE EXTREME CONDITIONS PRESENT UNDER SUCH TEST CONDITIONS IS ONE OF SEVERAL MAJOR TECHNOLOGICAL CHALLENGES ASSOCIATED WITH THE DESIGN, BUILDING, AND OPERATION OF THESE COMPLEX TEST ENVIRONMENTS. AMONG THE HOST OF PHYSICAL QUANTITIES, ACCURATE MAPPING OF VELOCITY FLOW FIELDS REMAINS A SIGNIFICANT YET ESSENTIAL CHALLENGE IN THESE FACILITIES. IN ADDITION, SPATIALLY AND TEMPORALLY RESOLVED MEASUREMENTS OF OTHER FLOW PARAMETERS, SUCH AS GAS DENSITY, PRESSURE, TEMPERATURE, AND SPECIES MIXING FRACTIONS, ARE OF PARAMOUNT IMPORTANCE TO CHARACTERIZE FULLY THE FLUID DYNAMICS. UNFORTUNATELY, THE WIDELY AVAILABLE CURRENT SUITE OF FLOW-FIELD PROBES EXHIBIT VARYING DEGREES OF INTRUSIVENESS, REQUIRING EITHER THE PHYSICAL PLACEMENT OF PROBES INSIDE THE TEST FACILITY OR THE INTRODUCTION OF FOREIGN PARTICLES OR GASPHASE SPECIES INTO THE FLOW FIELD. THUS, THE DEVELOPMENT AND APPLICATION OF NON-INVASIVE FLOW-FIELD DIAGNOSTIC PROBE TECHNIQUES IS OF PRINCIPAL IMPORTANCE IN THESE ENVIRONMENTS. THIS PROPOSAL EXPANDS UPON OUR SUCCESSFUL PHASE-I RESULTS AND OFFERS AN INTEGRATED PACKAGE OF TRULY CUTTING-EDGE, MULTIDIMENSIONAL, SEEDLESS VELOCIMETRY AND FLOW DIAGNOSTICS FOR GROUND-TEST FACILITIES. THE CONCEPTS AND IDEAS PROPOSED RANGE FROM PROOF-OF-PRINCIPLE DEMONSTRATION OF NOVEL METHODOLOGIES USING KHZ-RATE FEMTOSECOND (10-15 SEC) AND 100-KHZ-RATE BURST-MODE PICOSECOND (10-12 S) DURATION LASER SOURCES TO MEASUREMENTS IN REALISTIC TUNNEL CONDITIONS EXPECTED IN THE CURRENT SOLICITATION.

SBIR PHASE II R&D ADVANCED HIGH-G ACCELEROMETERS IN SMALL FORM FACTOR FOR INERTIAL MEASUREMENT UNIT APPLICATIONS

AN EXTREMELY LOW-JITTER, EFFICIENT, HIGH POWER FEMTOSECOND FIBER LASER, AND A BESSEL BEAM DISPERSION ELEMENT

PURCHASE AN AMPLIFIED FEMTOSECOND SYSTEM FOR X-RAY GENERATION

INTEGRATED MID-INFRARED SOURCES ENABLED BY WAVEGUIDES WRITTEN WITH FEMTOSECOND LASERS