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definition - Payload_for_Antimatter_Matter_Exploration_and_Light-nuclei_Astrophysics

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Payload for Antimatter Matter Exploration and Light-nuclei Astrophysics

                   
PAMELA
PamLogo A1blu3.png
PAMELAonResurs-DK.jpg
Organization PAMELA group
Mission Type Cosmic Ray
Host Satellite Resurs DK1
Launch 15 June 2006
Launch vehicle Soyuz-FG
Launch site Baikonur Cosmodrome
Mission duration 3 years
Mission elapsed time 6 years, 1 month and 3 days
Mass 470 kg
Max length 1300 mm
Power consumption 335 Watts
Webpage PAMELA homepage
Orbital elements (Resurs DK1)
Inclination 70 degrees
Orbit quasi-polar elliptical
Min altitude 360 km
Max altitude 604 km
Period 94.02 min

PAMELA (Payload for Antimatter Matter Exploration and Light-nuclei Astrophysics) is an operational cosmic ray research module attached to an Earth orbiting satellite. PAMELA was launched on 15 June 2006 and is the first satellite-based experiment dedicated to the detection of cosmic rays, with a particular focus on their antimatter component, in the form of positrons and antiprotons. Other objectives include long-term monitoring of the solar modulation of cosmic rays, measurements of energetic particles from the Sun, high-energy particles in Earth's magnetosphere and Jovian electrons. It is also hoped that it may detect evidence of dark matter annihilation.[1]

Contents

  Development and launch

PAMELA is the largest device yet built by the Wizard collaboration, which includes Russia, Italy, Germany and Sweden and has been involved in many satellite and balloon-based cosmic ray experiments such as Fermi-GLAST. The 470 kg, US$32 million (EU€24.8 million, UK£16.8 million) instrument was originally projected to have a three year mission. However, this durable module is still operational and making significant scientific contributions after more than five years.

PAMELA is mounted on the upward-facing side of the Resurs-DK1 Russian satellite.[1] It was launched by a Soyuz rocket from Baikonur Cosmodrome on 15 June 2006. PAMELA has been put in a polar elliptical orbit at an altitude between 350 and 610 km, with an inclination of 70°.

  Design

The apparatus is 1.3 m high, has a total mass of 470 kg and a power consumption of 335 W. The instrument is built around a permanent magnet spectrometer with a silicon microstrip tracker that provides rigidity and dE/dx information. At its bottom is a silicon-tungsten imaging calorimeter, a neutron detector and a shower tail scintillator to perform lepton/hadron discrimination. A Time of Flight (ToF), made of three layers of plastic scintillators, is used to measure the beta and charge of the particle. An anticounter system made of scintillators surrounding the apparatus is used to reject false triggers and albedo particles during off-line analysis.[2]

Sensitivity[1]
Particle Energy Range
Antiproton flux 80 MeV – 190 GeV
Positron flux 50 MeV – 270 GeV
Electron flux up to 400 GeV
Proton flux up to 700 GeV
Electron/positron flux up to 2 TeV
Light nuclei (up to Z=6) up to 200 GeV/n
Light isotopes (D, 3He) up to 1 GeV/n
Antinuclei search sensitivity better than 10−7 antiHe/He

  Results

Preliminary data (released August 2008, ICHEP Philadelphia) indicate an excess of positrons in the range 10–60 GeV. This is thought to be a sign of dark matter annihilation:[3][4] hypothetical WIMPs colliding with and annihilating each other to form gamma rays, matter and antimatter particles.

The first two years of data were released in October 2008 in three publications.[5] The positron excess was confirmed and found to persist up to 90 GeV. Surprisingly, no excess of antiprotons was found. This is inconsistent with predictions from most models of dark matter sources, in which the positron and antiproton excesses are correlated.

A paper, published on 15 July 2011, confirmed earlier speculation that the Van Allen belt could confine a significant flux of antiprotons produced by the interaction of the Earth's upper atmosphere with cosmic rays.[6] The energy of the antiprotons has been measured in the range of 60–750 MeV. Cosmic rays collide with atoms in the upper atmosphere creating antineutrons, which in turn decay to produce the antiprotons. They were discovered in a part of the Van Allen belt closest to Earth.[7] When an antiproton interacts with a normal particle, both are annihilated. Data from PAMELA indicated that these annihilation events occurred a thousand times more often than would be expected in the absence of antimatter. The data that contained evidence of antimatter were gathered between July 2006 and December 2008.[8][9]

  Sources of error

Between 1 and 100 GeV PAMELA is exposed to one hundred times as many electrons as antiprotons. At 1 GeV there are one thousand times as many protons as positrons and at 100 GeV ten thousand times as many. Therefore, to correctly determine the antimatter abundances, it is critical that PAMELA is able to reject the matter background. The PAMELA collaboration claimed in The electron hadron separation performance of the PAMELA electromagnetic calorimeter that less than one proton in 100,000 is able to pass the calorimeter selection and be misidentified as a positron when the energy is less than 200 GeV.

The ratio of matter to antimatter in cosmic rays of energy less than 10 GeV that reach PAMELA from outside the solar system depends on solar activity and in particular on the point in the 22 year solar cycle. The PAMELA team has invoked this effect to explain the discrepancy between their low energy results and those obtained by CAPRICE, HEAT and AMS-01, which were collected during that half of the cycle when the solar magnetic field had the opposite polarity. It is important to note that these results are consistent with the series of positron / electron measurements obtain by AESOP, which has spanned coverage over both polarities. Also the PAMELA experiment has contradicted an earlier claim by the HEAT experiment of anomalous positrons in the 6 GeV to 10 GeV range.

  See also

  References

  1. ^ a b c Vincenzo Buttaro, ed. "The Space Mission PAMELA". http://wizard.roma2.infn.it/pamela/. Retrieved 4 September 2009. 
  2. ^ P.Picozza et al., "Launch of the space experiment PAMELA", http://arxiv.org/abs/0708.1808
  3. ^ Physicists await dark-matter confirmation, Nature, 13 August 2008
  4. ^ The PAMELA Positron Excess from Annihilations into a Light Boson, Arxiv.org, 30 October 2008
  5. ^ Two years of flight of the Pamela experiment: results and perspectivesA new measurement of the antiproton-to-proton flux ratio up to 100 GeV in the cosmic radiationObservation of an anomalous positron abundance in the cosmic radiation, arXiv.org, 28 October 2008
  6. ^ Adriani, O.; Barbarino, G. C.; Bazilevskaya, G. A.; Bellotti, R.; Boezio, M.; Bogomolov, E. A.; Bongi, M.; Bonvicini, V. et al. (2011). "The Discovery of Geomagnetically Trapped Cosmic-Ray Antiprotons". The Astrophysical Journal Letters 737 (2): L29. arXiv:1107.4882v1. Bibcode 2011ApJ...737L..29A. DOI:10.1088/2041-8205/737/2/L29. 
  7. ^ Than, Ker (10 August 2011). "Antimatter Found Orbiting Earth—A First". National Geographic Society. http://news.nationalgeographic.com/news/2011/08/110810-antimatter-belt-earth-trapped-pamela-space-science/. Retrieved 12 August 2011. 
  8. ^ Cowen, Ron (9 August 2011). "Antimatter Belt Found Circling Earth". Science. http://news.sciencemag.org/sciencenow/2011/08/antimatter-belt-found-circling-e.html. Retrieved 12 August 2011. 
  9. ^ Chung, Emily (8 August 2011). "Antimatter belt surrounds Earth". CBC News. http://www.cbc.ca/news/technology/story/2011/08/08/science-antimatter-belt.html. Retrieved 12 August 2011. 

  External links

   
               

 

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