01144nam a22002891i 450099100058287970753620041006102920.0041108s1988 it |||||||||||||||||ita 8870960021b13242209-39ule_instARCHE-117375ExLDip.to Studi StoriciitaA.t.i. Arché s.c.r.l. Pandora Sicilia s.r.l.781.91Todini, Michele621360Dichiarazione della galleria armonica /Michele Todini ; a cura di Patrizio BarbieriLucca :Libreria musicale italiana,stampa 1988XXII, 92 p. ;16 cmMusurgiana ;2Ripr. facs. dell'ed.: In Roma : per F. Tizzoni, 1676Strumenti musicaliCollezioniItaliaCataloghiBarbieri, Patrizio.b1324220902-04-1412-11-04991000582879707536LE019 M 37712019000073639le019C. 1-E0.00-l- 01010.i1393138612-11-04Dichiarazione della galleria armonica1100850UNISALENTOle01912-11-04ma -itait 0101691nam 2200481I 450 991070372960332120150702143250.0(CKB)5470000002434427(OCoLC)912938742(EXLCZ)99547000000243442720150702j201406 ua 0engurcn|||||||||txtrdacontentcrdamediacrrdacarrierConceptual launch vehicle and spacecraft design for risk assessment /Samira A. Motiwala, Donovan L. Mathias, Christopher J. MattenbergerMoffett Field, California :National Aeronautics and Space Administration, Ames Research Center,June 2014.1 online resource (36 pages) color illustrationsNASA/TM ;2014-218366Title from title screen (viewed on July 2, 2015)."June 2014."Includes bibliographical references (pages 35-36).Aerospace safetynasatLaunch vehiclesnasatReliability analysisnasatRisk assessmentnasatSpacecraft designnasatAerospace safety.Launch vehicles.Reliability analysis.Risk assessment.Spacecraft design.Motiwala Samira A.1404470Mathias Donovan L.Mattenberger Christopher J.Ames Research Center,GPOGPOBOOK9910703729603321Conceptual launch vehicle and spacecraft design for risk assessment3479129UNINA01829nam 2200457z- 450 9910493737503321202107241000118743(CKB)5590000000537447(oapen)https://directory.doabooks.org/handle/20.500.12854/71415(oapen)doab71415(EXLCZ)99559000000053744720202107d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierQuantum Sensing Experiments with Superconducting QubitsKarlsruheKIT Scientific Publishing20211 online resource (172 p.)Experimental Condensed Matter Physics3-7315-1032-4 Quantum sensing is a vast and emerging field enabling in-situ studies of quantum systems and hence the development of quantum hybrid systems. This work creates the fundament of direct superconducting-magnetic hybrid systems by developing a local microwave sensing scheme and studying the influence of a static magnetic field on a superconducting qubit. Finally, a proof-of-principle hybrid system is demonstrated, which opens the path towards superconducting-magnetic quantum circuits.Physicsbicsschybrid systemsHybridsystemelow temperature physicsQuantenbitsQuantensensorikquantum bitsQuantum sensingsuperconductivitySupraleitungTieftemperaturphysikPhysicsSchneider Andreauth392615BOOK9910493737503321Quantum Sensing Experiments with Superconducting Qubits3036099UNINA