Vincent Van Gogh The starry night Extreme Universe
- Slides: 35
Vincent Van Gogh, “The starry night” Extreme Universe Space Observatory An Innovative Space Mission doing astronomy by looking downward from the Space Station at the Earth Atmosphere Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
hadron collisions: large energy density (1) Classical hadron interaction (Ep < 1018 e. V) A large part of the energy goes into the leading particle (often the same as projectile). The reaction is fast. At energy density > 3 Me. V/fm 3 (Ep> 1018 e. V) thermalisation can occur. Same basic phenomena than Quark-Gluon-Plasma (deconfinement) The reaction is slow. No more leading particle. The energy goes into transverse energy (ET increases). Fast interaction (leading particle) Basic illustration (fluo vs ground? ) Slow interaction (thermalisation) Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Disoriented Chiral Condensate (DCC) (Baked Alaska); a theory by J. D. Bjorken (1) Hadron-hadron collisions with cms energies where there is an especially large (no jets) transverse energy release. The high-multiplicity, high ET collision debris will expand outward the collision region at the speed of light for a few fermi before decoupling in real hadrons. At intermediate times, we have a hot thin shell with a relatively colder interior which will relax to something akin a vacuum. This vacuum is almost degenerate owing to the chiral symmetry, which is spontaneously broken. This vacuum will radiate its pionic orientation, which is the observable of interest. So, if the deflection of the vacuum is in the p 0 direction, all condensate will be p 0’s (anti-Centauro) and if orthogonal, all pions will be charged (Centauro). These pions, emitted from a large volume, have a low p. T - J. Bjorken Results and perspective in particle physics. Rencontres de la vallée d’Aoste. M. Greco editor, 1993 - G. Amelina-Camelia, J. D. Bjorken and S. E. Larsson Pion production from baked-Alaska disoriented chiral condensate; Phys Rev D 56(1997)6942 Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Disoriented Chiral Condensate (DCC) (Baked Alaska); a theory by J. D. Bjorken (2) Basically: assuming that the event-by event deviation of the quark condensate from its usual orientation, one finds that the distribution P(f) of the neutral fraction is given by This JACEE event (p interaction in calorimeter) is evidence for “texture” in the lego plot at large Ntot Most notably, this implies that for Disoriented Chiral Condensate, the probability of finding extreme values of f is very different from ordinary pion production (which is given by a binomial distribution), in which the fluctuations are expected to be peaked at f = 1/3 and fall exponentially away from the peak. The most favorable are p-nucleus reactions (sizable matter to traverse, but still a thin hot shell. So, how do fluo and ground measurements behave in these conditions? Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Calorimetry vs pattern If the ratio of the electrons to the charged pions in a shower stays constant, its repartition in rapidity bins could very well be not uniform. This is not too important when looking at the fluorescence, for it is a calorimetric measurement. (and furthermore the number of electrons at the shower max is extremely stable and proportional to energy), even if the electrons repartition in is not uniform. However, if one looks at the pattern of particles hitting the ground (the ratio of particles outside a circle to particles inside), the result will not be so robust, on an event-by-event showers with the same energy. The high ET of the first hadronic collisions will put more particles outside, and is it not what seems to be observed? Fluorescence measurements are then probably more precise in energy determination. Angular resolution is also more precise for the statistics in photo-electrons (fluo) are better than those on ground stations (at least for muons which are alone for inclined showers). Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
How to check (if a problem exists) The crucial plot. A piece of cake for AUGER! (1 st preliminary hybrid event shown in Florence, now many more points) And, why wait? K. H. Kampert just showed it! Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Has the GZK suppression been discovered? J. N. Bahcall and E. Waxman hep-ph/0206217 v 5 27 Feb 2003 In this important paper, Bahcall and Waxman claim that there is no need for exotic new physics to account for the observed events with energies greater than 1020 e. V, except for the AGASA data. They adjust individually the absolute energy calibrations of the various experiments (with fractional E shifts all well within published systematic errors in E) so that they agree @ 1019 e. V, and find that the agreement is excellent from 1018 to 5 x 1019 e. V. -------> Envelope of EUSO data in five years if No GZK ----------------------Energy scale Expected Observed ----------------------Fly’s Eye 34 4 AGASA 40 6 Yakutsk 46 6 A fit with their “Extra-Galactic + Galactic and No GZK (an extrapolation of the E-2. 75 energy spectrum in the precise region 6 x 1018 to 4 x 1019 e. V)” is shown on the left. The table compares the events above 1020 e. V and shows a strong deficit (>5 s) of observed events. Hence, this is a strong suggestion that the GZK cutoff has been observed. But this is based ONLY in the precise data at “low” energy ---> we need precise data from 5 x 1019 to 1021 e. V. Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
SPACE vs GROUND (1) ESA's Integral detects closest cosmic gamma-ray burst 5 August 2004 A gamma-ray burst detected by ESA's Integral gamma-ray observatory on 3 December 2003 has been thoroughly studied for months by an armada of space and ground-based observatories. Astronomers have now concluded that this event, called GRB 031203, is the closest cosmic gamma-ray burst on record, but also the faintest. This also suggests that an entire population of sub-energetic gamma-ray bursts has so far gone unnoticed. . . Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
SPACE vs GROUND (2) AMS p AMS shuttle He Parametrization F(R) = F 0 Rg with R (rigidity) in GV AMS ISS NO PRECISION… NO HOPE! Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
What EUSO looks like Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
SIZES High statistics Target mass: 1012 - 1013 tons Fixed Moving Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
EUSO: Who does what ? Ground Segment : Portugal LIDAR : Switzerland - Italy Electronics : France - Italy Analog - Digital Mechanics : France - Italy Photo-detector : Japan ≈ 200 000 pixels Optics : USA f ≈ 2 m Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
US Optics I The ISS is known to move quite a lot. A lens (refraction) tilt produces a smaller movement of the image than a mirror (reflection) tilt. CYTOP? Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
French activities LPSC (Grenoble) & APC/PCC (Collège de France) Communication Outreach Simulations - ESAF Atmosphere Analysis, Lidar F. Vannucci Text-Tint Analog electronics Front End Thermal conductivity of FSA (Summer, 6 m 2, 850/200 W) Mechanics and thermal study of the focal surface Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
And elsewhere… Italy-Alenia Germany (Munich) calibrations ESA Japan USA Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Acceptance and counting rates I Shower, detector and trigger simulation: Shower production : Corsika -> parameterization GIL Photons production : Fluorescence (Kakimoto et al. ) and Cerenkov Atmosphere transport : Rayleigh, Mie, Ozone (LOWTRAN 7) Optics : Transfers and aberrations Photo-detectors : Filters and quantum efficiency Trigger : Thresholds and persistence (Nthre, Npers) Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Acceptance and counting rates II The absolute threshold is anchored by ∆ and the detection efficiency. The trigger performances determine the acceptance evolution versus energy. The asymptotic efficiency will be determined by the cloud coverage. Efficiency times the power -2. 7 law Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Clouds effects I The cloud coverage will play an important role : • Eventually mask part of the shower (Smax), • Increase the Cerenkov light reflection; The cloud coverage is given by the ISCCP database : 280 x 280 km 2 pixel size: Longitude, latitude, every 3 hours --> altitude, albedo, cloud fraction. Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Clouds effects II NO CLOUDS Clouds reduce efficiency from ≈ 86% ≈ 53% Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Clouds effects versus shower energy E = 5 x 1019 e. V E = 1 x 1020 e. V E = 5 x 1020 e. V Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Duty cycle (time fraction usable for measurements) depends on the "photon background" : Without moon, this background is estimated (measured) to 300 ph/m 2/nsec/sr It originates from the stars light and to the "Airglow" It does not depend critically on the cloud coverage (≈ +20%) Moonlight will limit the duty cycle. • for 12. 8% of the time, moon is under horizon, • for 18% light increase is insignificant, • for 25% light increase < 100 ph/m 2/nsec/sr. To that, too short nights have to be removed (<10% of them). Euso has a warranty of a 3 years effective measurement time (and, see this talk end, if JAXA HTV is used, there is no return). Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
A possible measurement … (duty cycle 12%) Super-GZK, in the French terminology, really means: No GZK Nevt. GZK (E >1020 e. V) >100 Courtesy of AGASA Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Angular resolution Precise showers analysis will be made on an “event by event” basis: each shower will get errors specifically depending of the observation conditions. As of today, only a statistical error estimation is considered. Angular resolution : ∆q < 1° if qshower > 60° Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Energy resolution, errors I “End-to-End” simulation software allow to estimate errors (statistical and systematical) associated to all parameters: Fluorescence, quantum effic. , optics transmission, temperature, density, atmospheric transmission, angle, … Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Energy resolution, errors II Nature Error Missing energy 5% E e- 5% Method + (1 st Int. + Nb of p. e) 10%+10% e- fluorescence 20% -> 10% Atmospheric correction 15% Optics + detector 10% Temperature and Pressure 5% Qshower (2°) 2% Mass (p -Fe) 5% Total 27% Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Horizontal showers and Neutrinos • Shower length depends on the encountered density • Fluorescence production (O 2 being a quencher) depends only on altitude (< 15 km) Shower width (∆T) will then depend only on altitude. Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Neutrinos and Hadrons showers • The probability to observe an (≈ horizontal) hadronic shower with a maximum under 10 km is extremely weak. • Instead, this probability is maximum for neutrinos. Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Neutrinos acceptance and boundary fluxes EUSO total acceptance for neutrinos (interacting in atmosphere) is ≈ 0. 15 x 10 km 2. sr Corresponding to a detection limit of J( E )*E 2 ≈ 70 e. V cm-2 sr-1 For horizontal showers (>85°), a 15 times increase is to be foreseen. Acceptance with identification Neutrino acceptance is low, but if fluxes are adequate, the observation of an horizontal shower, under 10 km, should be the hallmark of neutrinos. The nt, interacting with the earth crust would have an acceptance x 10 -100 For horizontal showers (no ground array), the ratio of EUSO to AUGER areas is 100, plus - shower length ≈ AUGER F ==> full shower never observed in its totality - EUSO scans the whole sky Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Ups and downs (and ups…) Situation until June 2004: ESA: Science division is in charge. As we are phase A, they do not give money, but examine scientifically. In France, IN 2 P 3 pays for phase A (INFN in Italy…). NASA: Code S (Science) is in charge. In phase B and get money. Will be reexamined at end of phase B. But will not go further phases alone. JAXA: ISS division. Are in phase A, going to phase B, Riken paying. ESA ISS division (with Science div. Physicists) says EUSO passed phase A successfully. June 04: ESA Science directorate says no to phase B for AUGER and Shuttle reasons. Real reason is money. A. Watson replies that AUGER first results will be in 05 and not 08 or 09. JAXA proposes their HTV to replace Shuttle. ESA MSM (ISS) division offers to replace Science division. August 20 2004 Director of Science division at ESA agrees that EUSO switches from his division to the MSM (ISS) division (keeping control however). It looks like ASI (and CNES hopefully) finds this OK. Livio Scarsi is in Riken with ESA, NASA and JAXA. Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Japanese docks JEM-EF • JEM-EF in ISS Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Payload Interface/Resource a. Power b. C&DH 3 k. W× 2 ch (120 VDC) 2 locations (EFU#1, #2) High rate data 8 ch Video data 8 ch Ethernet 7 ch c. TCS Maximum Heat Transfer Total 10 k. W (plug the cooling liquid). More power (3 k. W instead of 1 k. W) means: - more computing, hence a local trigger based on continuity of pixels ==> threshold can go down to less than 1 x 1019 e. V (maybe even less, see Hank Crawford) - PMT bases with more current ==> better stability Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
EUSO-HTV revised configuration: description Passive MCAS Passive FRAM for on-orbit attachment of LIDAR Radiator FRGF (Focal Surface Module structure to be redesigned to support FRGF loads) Batteries and Electronic Boxes HTV I/Fs (wheels and TSM) supported by EUSO P/L structure Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
HTV door problems HTV Door EUSO horizontal in HTV (Alenia solution) EUSO vertical in HTV (Cd. F, Riken & UAH solution) Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
In the future Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
Philippe Gorodetzky - EUSO collaboration PCC / APC - Collège de France XIII ISVHECRI Pylos, September 6 -12, 2004
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- Starry night analysis
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- Postimpressionist artist. *
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- Extreme universe collaboration
- Extreme wide angle camera shot