Search results for "Optical telescope"

showing 7 items of 17 documents

In-Situ Calibration of UFFO/Lomonosov for Observation of GRBs

2017

The UFFO/Lomonosov has been successfully launched into Sun synchronous orbit and is operational through tests and calibrations since its launch on Apr. 28, 2016. As a pathfinder of UFFO, it will be the first space instrument to use a fast slewing mirror which reduce the trigger latency of optical telescope, less than a second, to explore early time domain of GRB evolution. In this article, we will report in detail the first mission, UFFO/Lomonosov, for the rapid response to observe early photons from GRBs in orbit.

PhysicsPathfinderSun-synchronous orbitOrbit (dynamics)AstronomyIn situ calibrationGamma-ray burstRapid responseOptical telescopeProceedings of 35th International Cosmic Ray Conference — PoS(ICRC2017)
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Ultra-Fast Flash Observatory for detecting the early photons from gamma-ray bursts

2011

Gamma-ray bursts (GRBs) are the most luminous transient events with short intense flashes that have been detected in random directions in the sky once or twice per day. Their durations have been measured in seconds, especially short GRBs with duration of < 2 sec. The Ultra-Fast Flash Observatory (UFFO) space mission aims to detect the earliest moments of an explosion which presents the nature of GRBs, resulting into the enhancement of GRB mechanism understanding. The UFFO consists of a couple of wide Field-of-View (FOV) trigger telescopes, a narrow-FOV Slewing Mirror Telescope (SMT) for the fast measurement of the UV-optical photons from GRBs, and a gamma-ray monitor for energy measurement.…

PhysicsPhotomultiplierX-ray astronomyApertureAstrophysics::High Energy Astrophysical PhenomenaAstrophysics::Instrumentation and Methods for AstrophysicsAstronomyGamma-ray astronomyAstrophysicsOptical telescopelaw.inventionTelescopelawObservatoryGamma-ray burst2011 2nd International Conference on Space Technology
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FRAM—The Robotic Telescope for the Monitoring of the Wavelength Dependence of the Extinction: Description of Hardware, Data Analysis, and Results

2010

FRAM-F/(Ph)otometric Robotic Atmospheric Monitor is one of the atmospheric monitoring instruments at the Pierre Auger Observatory in Argentina. FRAM is an optical telescope equipped with CCD cameras and photometer, and it automatically observes a set of selected standard stars. Primarily, FRAM observations are used to obtain the wavelength dependence of the light extinction. FRAM telescope is also able to observe secondary astronomical targets, and namely the detection of optical counterparts of gamma-ray bursts has already proven to be successful. Finally, a wide-field CCD camera of FRAM can be used for rapid monitoring of atmospheric conditions along the track of particularly interesting …

PhysicsPierre Auger ObservatoryArticle Subjectbusiness.industrylcsh:AstronomyAstrophysics::High Energy Astrophysical PhenomenaAstrophysics::Instrumentation and Methods for AstrophysicsAstronomy and AstrophysicsCosmic rayPhotometerOptical telescopelaw.inventionTelescopelcsh:QB1-991StarsOpticsRobotic telescopeSpace and Planetary SciencelawExtinction (optical mineralogy)Astrophysics::Solar and Stellar AstrophysicsAstrophysics::Earth and Planetary AstrophysicsbusinessComputer hardwareRemote sensingAdvances in Astronomy
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Zvaigžņotā Debess: 2009, Pavasaris (203)

2009

Contents: E.R.Mustel, President of the Astronomical Council of the USSR Academy of Sciences. Congratulations to Editorial Board of “Zvaigžņotā debess” ; Z.Alksne. Gould’s Belt ; I.Daube. At the Radioastrophysical Observatory of the Latvian Academy of Sciences ; Z.Alksne, A.Alksnis. Lopsided Galaxies ; A.Alksnis. HII Region Gum 29 – a Stellar Nursery ; D.Docenko. On Collision of Asteroid 2008 TC3 with the Earth ; V.Lapoška. On „Leap Second” ; I.Vilks, M.Gills. Beginning of the International Year of Astronomy in Paris: Impressions by Latvian Delegates ; J.Jaunbergs. Equatorial Ridge on Iapetus ; M.Sudārs. Space Shuttle Is Not Likely to Retire Next Year ; I.Vilks. Planet Satellite Names in Lat…

Planētu pavadoņu latviskie nosaukumiHII apgabals Gum 29Saules aptumsums - novērojumi - 2008. gada 1. augusts RīgaPublikācijas par astronomijuSaturna pavadonis Japets – kalnu joslaGalileja tālskatis – ESA/NASA Habla Kosmiskais teleskopsAstronomija skolāZiemeļvalstu optiskais teleskops (Nordic Optical Telescope) Kanāriju salāsApsveikums „Zvaigžņotās debess” redakcijai„Liekā” sekundeDr.habil.phys. Juris Tambergs (1942-2008)Latvijas PSR ZA Radioastrofizikas observatorija – vēstureAicinājums astronomijas atbalstītājamRīgas Politehnikuma observatorijas tornis – vēstureStarptautiskais Astronomijas gads 2009Fizikas autodidakts Roberts KrastiņšSpirāliskās galaktikas – asimetrijaNovērojumi Rīgas Politehnikuma tornī - pirmā publikācijaĒrgļa Sigma seminārs – daļējs Mēness aptumsumsVisuma tēma filatēlijā – kosmiskās ēras sākumsSaules aptumsums - novērojumi - 2008.gada jūlijs SibīrijaPublisko demonstrējumu observatorija RāmkalnosDr.habil.math. Aivars Lorencs - intervijaAstronomiskās parādības - 2009Asteroīda 2008 TC3 sadursme ar ZemiNASA Space Shuttle programmas pagarinājumsLatvijas jauno matemātiķu izlase - 2008.gads“Noteikumi par līgumu starp Latvijas Republikas valdību un Eiropas Kosmosa aģentūru par sadarbību kosmosa jomā miermīlīgiem mērķiem” - projektsLU profesors Edgars Lejnieks (1919-1934)Jānis Klētnieks „Mūžības valdnieki”Ūdens marsiešiemLatvijas atklātā skolēnu astronomijas olimpiāde
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Slewing mirror telescope of the UFFO-pathfinder: first report on performance in space

2017

To observe the early optical emissions from gamma ray bursts (GRBs), we built the Slew Mirror Telescope. It utilizes a 150 mm motorized mirror to redirect incoming photons from astrophysical objects within seconds and to track them as compensating satellite movements. The SMT is a major component of the UFFO-pathfinder payload, which was launched on April 28, 2016, onboard the Lomonosov satellite. For the first time, the slewing mirror system has been proven for the precision tracking of astrophysical objects during space operation. We confirmed that the SMT has 1.4 seconds of response time to the X-gamma-ray trigger, and is able to compensate for satellite drift and to track astrophysical …

Point spread functionPhysicsbusiness.industryPayloadAstrophysics::High Energy Astrophysical PhenomenaTrack (disk drive)Astrophysics::Instrumentation and Methods for AstrophysicsAstronomyTracking (particle physics)01 natural sciencesAtomic and Molecular Physics and OpticsOptical telescopelaw.inventionTelescopeOpticslaw0103 physical sciencesSatellite010306 general physicsbusinessGamma-ray burst010303 astronomy & astrophysicsOptics Express
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Development of Slewing Mirror Telescope Optical System for the UFFO-pathfinder

2013

The Slewing Mirror Telescope (SMT) is the UV/optical telescope of UFFO-pathfinder. The SMT optical system is a Ritchey-Chretien (RC) telescope of 100 mm diameter pointed by means of a gimbal-mounted flat mirror in front of the telescope. The RC telescope has a 17 × 17arcmin2 in Field of View and 4.3 arcsec resolution (full width half maximum of the point spread function) The beam-steering mirror enables the SMT to access a 35 × 35degree region and point and settle within 1 sec. All mirrors were fabricated to about 0.02 wavelengths RMS in wave front error (WFE) and 84.7% average reflectivity over 200 nm ~ 650 nm. The RC telescope was aligned to 0.05 wavelengths RMS in WFE (test wavelength 63…

WavefrontPoint spread functionPhysicsbusiness.industryGeneral EngineeringAstronomy and AstrophysicsField of viewAstrophysicsOptical telescopelaw.inventionTelescopeWavelengthFull width at half maximumOpticsPathfinderSpace and Planetary Sciencelawbusiness
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The rapid atmospheric monitoring system of the Pierre Auger Observatory

2012

The Pierre Auger Observatory is a facility built to detect air showers produced by cosmic rays above 1017 eV. During clear nights with a low illuminated moon fraction, the UV fluorescence light produced by air showers is recorded by optical telescopes at the Observatory. To correct the observations for variations in atmospheric conditions, atmospheric monitoring is performed at regular intervals ranging from several minutes (for cloud identification) to several hours (for aerosol conditions) to several days (for vertical profiles of temperature, pressure, and humidity). In 2009, the monitoring program was upgraded to allow for additional targeted measurements of atmospheric conditions shor…

[PHYS.ASTR.HE]Physics [physics]/Astrophysics [astro-ph]/High Energy Astrophysical Phenomena [astro-ph.HE]AstronomyFOS: Physical sciencesCosmic rayReal-time monitoring01 natural sciencesLarge detector systems for particle and astroparticle physics Real-time monitoring Control and monitor systems onlineOptical telescopeObservatory0103 physical sciencesSHOWERSLarge detector systems for particle and astroparticle physics; Real-time monitoring; Control and monitor systems onlineFLUORESCENCE010303 astronomy & astrophysicsInstrumentationInstrumentation and Methods for Astrophysics (astro-ph.IM)DETECTORMathematical PhysicsRemote sensingEvent reconstructionPierre Auger ObservatoryHigh Energy Astrophysical Phenomena (astro-ph.HE)010308 nuclear & particles physicsLarge detector systems for particle and astroparticle physicsControl and monitor systems online[SDU.ASTR.HE]Sciences of the Universe [physics]/Astrophysics [astro-ph]/High Energy Astrophysical Phenomena [astro-ph.HE]FísicaENERGY-SPECTRUMMonitoring programControl and monitor systems online; Large detector systems for particle and astroparticle physics; Real-time monitoringAerosolATMOSFERA (MONITORAMENTO)Air showerExperimental High Energy PhysicsFísica nuclearAstrophysics - Instrumentation and Methods for AstrophysicsAstrophysics - High Energy Astrophysical Phenomena
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