Publication data of Pallottino, Giovanni Vittorio: Link to Inspire

Created with Highcharts 9.0.1CitationsCitationsw/o self-citaionself-citaion197519801985199019952000200520102015202020250100200300400500600
Created with Highcharts 9.0.1Publicationspublications per yearPublicationsPublications per yearCumulative publications1980199020002010202002040608010001.534.567.5
Created with Highcharts 9.0.1h-indexh-indexh-indexh-index w/o self-citaion1975198019851990199520002005201020152020202502468101214
Created with Highcharts 9.0.1CitationsBreakdown of Most Cited PapersrestDark Matter searches using gravitational wave bar detectors: quark nuggets and newtoritesDark Matter searches using gravitational wave bar detectors: quark nuggets …On the efficiency of the coincidence search in gravitational wave experimentsData Analysis Algorithms for Gravitational Wave ExperimentsQuark nuggets search using 2350 Kg gravitational waves aluminum bar detectorsQuark nuggets search using 2350 Kg gravitational waves aluminum bar dete…Analysis of 3 years of data from the gravitational wave detectors EXPLORER and NAUTILUSAnalysis of 3 years of data from the gravitational wave detectors EXPLORER a…Wiener filters for gravitational wave antennas: Characteristics and applicationsWiener filters for gravitational wave antennas: Characteristics and applicatio…Cooling down MiniGRAIL to milli-Kelvin temperaturesSensitivity of the Rome gravitational wave experiment with the Explorer cryogenic resonant antenna operating at 2-KSensitivity of the Rome gravitational wave experiment with the Explorer cryo…INITIAL OPERATION AT LIQUID HELIUM TEMPERATURE OF THE M = 2270-KG AL-5056 GRAVITATIONAL WAVE ANTENNA OF THE ROME GROUPINITIAL OPERATION AT LIQUID HELIUM TEMPERATURE OF THE M = 2270-KG A…Resonant gravitational wave antennas for stochastic background measurementsResonant gravitational wave antennas for stochastic background measureme…MiniGRAIL progress report 2004Preparing for science run 1 of MiniGRAILPreliminary Results on the Operation of a 2270-kg Cryogenic Gravitational Wave Antenna With a Resonant Capacitive Transducer and a $D$.c. Squid AmplifierPreliminary Results on the Operation of a 2270-kg Cryogenic Gravitational Wa…The fast matched filter for gravitational-wave data analysis: Characteristics and applicationsThe fast matched filter for gravitational-wave data analysis: Characteristics a…Upper limit for nuclearite flux from the Rome gravitational wave resonant detectorsUpper limit for nuclearite flux from the Rome gravitational wave resonant det…Matching of Transducers to Resonant Gravitational Wave AntennasData Recordered by the Rome Room Temperature Gravitational Wave Antenna, during the Supernova SN 1987a in the Large Magellanic CloudData Recordered by the Rome Room Temperature Gravitational Wave Antenn…First cooling below 0.1-K of the new gravitational wave antenna 'Nautilus' of the Rome groupFirst cooling below 0.1-K of the new gravitational wave antenna 'Nautilus' of t…Long term operation of the Rome 'Explorer' cryogenic gravitational wave detectorLong term operation of the Rome 'Explorer' cryogenic gravitational wave det…197519801985199019952000200520102015202020250100200300400500600
Created with Highcharts 9.0.1Fraction [%]Breakdown of Most Cited Papers (Fraction)Dark Matter searches using gravitational wave bar detectors: quark nuggets and newtoritesDark Matter searches using gravitational wave bar detectors: quark nuggets …On the efficiency of the coincidence search in gravitational wave experimentsData Analysis Algorithms for Gravitational Wave ExperimentsQuark nuggets search using 2350 Kg gravitational waves aluminum bar detectorsQuark nuggets search using 2350 Kg gravitational waves aluminum bar dete…Analysis of 3 years of data from the gravitational wave detectors EXPLORER and NAUTILUSAnalysis of 3 years of data from the gravitational wave detectors EXPLORER a…Wiener filters for gravitational wave antennas: Characteristics and applicationsWiener filters for gravitational wave antennas: Characteristics and applicatio…Cooling down MiniGRAIL to milli-Kelvin temperaturesSensitivity of the Rome gravitational wave experiment with the Explorer cryogenic resonant antenna operating at 2-KSensitivity of the Rome gravitational wave experiment with the Explorer cryo…INITIAL OPERATION AT LIQUID HELIUM TEMPERATURE OF THE M = 2270-KG AL-5056 GRAVITATIONAL WAVE ANTENNA OF THE ROME GROUPINITIAL OPERATION AT LIQUID HELIUM TEMPERATURE OF THE M = 2270-KG A…Resonant gravitational wave antennas for stochastic background measurementsResonant gravitational wave antennas for stochastic background measureme…MiniGRAIL progress report 2004Preparing for science run 1 of MiniGRAILPreliminary Results on the Operation of a 2270-kg Cryogenic Gravitational Wave Antenna With a Resonant Capacitive Transducer and a $D$.c. Squid AmplifierPreliminary Results on the Operation of a 2270-kg Cryogenic Gravitational Wa…The fast matched filter for gravitational-wave data analysis: Characteristics and applicationsThe fast matched filter for gravitational-wave data analysis: Characteristics a…Upper limit for nuclearite flux from the Rome gravitational wave resonant detectorsUpper limit for nuclearite flux from the Rome gravitational wave resonant det…Matching of Transducers to Resonant Gravitational Wave AntennasData Recordered by the Rome Room Temperature Gravitational Wave Antenna, during the Supernova SN 1987a in the Large Magellanic CloudData Recordered by the Rome Room Temperature Gravitational Wave Antenn…First cooling below 0.1-K of the new gravitational wave antenna 'Nautilus' of the Rome groupFirst cooling below 0.1-K of the new gravitational wave antenna 'Nautilus' of t…Long term operation of the Rome 'Explorer' cryogenic gravitational wave detectorLong term operation of the Rome 'Explorer' cryogenic gravitational wave det…197519801985199019952000200520102015202020250255075100
Created with Highcharts 9.0.1Citations/1 YearCitations/PeriodCitations / 1 YearMoving average1975198019851990199520002005201020152020202501020304050