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PROSPECTIVE FUTURE PCOS (INFLATION PROBE) AND COR (ORIGINS SPACE TELESCOPE FIR INTERFEROMETER) MISSIONS REQUIRE LARGE ARRAYS OF HIGHLY SENSITIVE MILLIMETER-WAVE AND SUBMILLIMETER (MM/SUBMM) DETECTORS INCLUDING SPECTROSCOPIC DETECTORS. A NUMBER OF TECHNOLOGY DEVELOPMENTS IN SUPERCONDUCTING SENSORS FOR THESE APPLICATIONS REQUIRE LOW-LOSS DIELECTRIC THIN FILMS. EXAMPLES INCLUDE: MICROSTRIP-COUPLED SUPERCONDUCTING MM/SUBMM DETECTORS WHICH RELY ON SUPERCONDUCTOR-DIELECTRIC-SUPERCONDUCTOR MICROSTRIP TRANSMISSION LINE TO TRANSMIT OPTICAL POWER FROM A COHERENT RECEPTION ELEMENT (FEED HORN LENS COUPLED ANTENNA PHASED-ARRAY ANTENNA) TO DETECTORS; SUPERCONDUCTING SPECTROMETERS (SUPERSPEC TIME MICROSPEC) WHICH USE SUCH MICROSTRIP TO ROUTE OPTICAL POWER TO DETECTORS AND TO DEFINE SPECTRAL CHANNELS; KINETIC INDUCTANCE DETECTORS (KIDS) WHICH USE CAPACITORS. IN THE ABOVE THE DIELECTRIC LOSS QUANTIFIED BY THE LOSS TANGENT (TAN DELTA) IS CRITICAL: IT DETERMINES THE OPTICAL LOSS IN THE MICROSTRIP THE RESOLUTION OF SPECTRAL CHANNELS AND THE TWO-LEVEL-SYSTEM (TLS) DIELECTRIC FLUCTUATION NOISE OF THE KID CAPACITOR. CURRENTLY THE AMORPHOUS DIELECTRICS SIO2 AND SINX ARE USED BECAUSE THEY ARE MOST CONVENIENT FOR FABRICATION. THEY HAVE TAN DELTA ~ 1E-3. THIS LOSS TANGENT IS ACCEPTABLE FOR MICROSTRIPLINE BUT SEVERELY LIMITS THE POSSIBLE ARCHITECTURES AND SPECTRAL RESOLVING POWER AND IT IS TOO LARGE FOR KID CAPACITORS. LOWER LOSS DIELECTRIC WOULD RESULT IN A QUANTUM LEAP IN CAPABILITY OPENING UP DESIGN SPACE HERETOFORE INACCESSIBLE AND ENABLING DESIGN INNOVATIONS. SPECIFIC IMPACTS ON THE ABOVE TECHNOLOGIES WOULD BE: FOR PHASED-ARRAY ANTENNAS LOWER OPTICAL LOSS WOULD ALLOW THE DETECTORS TO BE MOVED AWAY FROM THE ANTENNA ALLOWING THEM TO BE SHIELDED FROM ABSORPTION OF LIGHT THAT HAS NOT BEEN SPATIALLY OR SPECTRALLY FILTERED AND ALSO OBVIATING LONG WIRING BUSSES. MORE SOPHISTICATED ANTENNA DESIGNS SUCH AS MULTISCALE ANTENNAS COVERING A DECADE OF SPECTRAL BANDWIDTH COULD BE ENTERTAINED; FOR SUPERCONDUCTING SPECTROMETERS LOWER LOSS WOULD IMPROVE THE SPECTRAL RESOLUTION LIMIT RMAX = (1/TAN DELTA) FROM 1E3 TO 2E5 SUFFICIENT FOR RESOLVED EXTRAGALACTIC MM/SUBMM SPECTROSCOPY WHERE INTRINSIC LINE WIDTHS ARE DNU/NU ~ 1E-4 TO 1E-3; FOR KIDS THE INTERDIGITATED CAPACITORS (IDC) CURRENTLY USED COULD BE REPLACED BY PARALLEL-PLATE CAPACITORS 40 TIMES SMALLER IN AREA PRESENTING A NUMBER OF ADVANTAGES OVER IDCS IN PROPERTIES SUCH AS FOCAL PLANE FILL FACTOR AND MOUNTING ARCHITECTURE DIRECT ABSORPTION AND INTER-KID COUPLING. THERE EXIST TWO PATHS IN THE LITERATURE TO LOWER LOSS: HYDROGENATED AMORPHOUS SILICON (A-SI:H) AND CRYSTALLINE SILICON (CSI). CRYSTALLINE SILICON INTRINSICALLY HAS TAN DELTA<5E-6 200 TIMES LOWER THAN SIO2 AND SINX. A-SI:H HAS BEEN DEMONSTRATED WITH TAN DELTA<5E-5 NOT AS GOOD AS CSI BUT STILL 20 TIMES BETTER THAN SIO2 AND SINX. WE WILL PURSUE THE DEVELOPMENT OF BOTH OPTIONS DUE THEIR COMPLEMENTARY ADVANTAGES AND CHALLENGES. WHILE A PROCESS HAS ALREADY BEEN DEMONSTRATED FOR 5 UM CSI WITH DELTA<1E-4 AND CONSISTENT WITH OTHER DESIGN/FABRICATION CONSTRAINTS IT HAS NOT BEEN SHOWN YET THAT THIS CAN BE EXTENDED TO MORE CONVENIENT 1 UM AND 2 UM THICKNESSES. A-SI:H HAS BEEN DEMONSTRATED TO HAVE TAN DELTA<1E-4 BUT THE FABRICATION RECIPE IS ALMOST CERTAINLY MACHINE-SPECIFIC AND MAY NOT BE COMPATIBLE WITH FOCAL PLANE ARRAY FABRICATION DUE TO ADHESION OR STRESS ISSUES. GIVEN THE UNCERTAINTIES AND DIFFERENT CONSTRAINTS IMPOSED BY THE TWO PROCESSES IT IS SENSIBLE TO PURSUE BOTH. THIS DEVELOPMENT WOULD CONTRIBUTE TO FILLING THE CRITICAL TECHNOLOGY GAPS IDENTIFIED IN THE 2016 PCOS AND COR PROGRAM ANNUAL TECHNOLOGY REPORTS SPECIFICALLY THE PCOS ADVANCED MILLIMETER-WAVE FOCAL PLANE ARRAYS FOR CMB POLARIMETRY GAP AND THE COR LARGE-FORMAT LOW-NOISE FAR-INFRARED AND ULTRALOW NOISE (FIR) DIRECT DETECTORS AND COMPACT INTEGRATED SPECTROMETERS FOR 100 TO 1000 UM GAPS.

$1,072,145FY2020National Aeronautics and Space AdministrationNASA

California Institute Of Technology, Pasadena CA

Investigators

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