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SEMINAR ON ANTIMATTER

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STORAGE. Traps. Appropriate configuration of electric and magnetic fields. Good vacuum. ... ALPHA MAGNETIC SPECTROMETER High energy particle detector. – PowerPoint PPT presentation

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Title: SEMINAR ON ANTIMATTER


1
SEMINAR ON ANTIMATTER
2
INTRODUCTION
  • Antimatter is real.
  • Energy density of
  • chemical reaction is 110? J/kg.
  • nuclear fission is 810?? J/kg.
  • nuclear fusion is 310?? J/kg.
  • matter antimatter reaction is 91016 J/kg.
  • Highest energy release per unit mass.
  • Complete conversion of mass into energy.


3
WHAT IS MATTER?
  • Everything around us.
  • Basic components
  • electrons.
  • protons.
  • neutrons.

4
WHAT IS ANTIMATTER?
  • Opposite of normal matter.
  • Basic components are
  • positrons.
  • antiprotons.
  • antineutrons.

5
HISTORY OF ANTIMATTER.
  • In 1928,Paul A.M.Dirac revised Einsteins famous
    equation Emc².
  • Diracs equation Emc².
  • Positrons discovered by Carl Anderson in 1932.
  • Antiprotons discovered in 1955.
  • Antiatoms discovered in 1995 by CERN.

6
PRODUCTION OF ANTIMATTER.
  • Created from energy.
  • Protons are smashed into target.
  • Matter-antimatter particles are spontaneously
    created.
  • Antiproton head towards the Antiproton
    Decelerator.

7
ANTIPROTON DECCELERATOR (AD)
  • It consists of
  • vacuum tubes.
  • vacuum pumps.
  • magnets.
  • radiofrequency cavities.
  • high voltage instruments.
  • electronic circuits.

8
WORKING OF AD.
  • Antiproton have
  • energy spread.
  • transverse oscillations.
  • Focusing magnets.
  • Radiofrequency cavities decelerate the
    antiproton.

9
AD EXPERIMENTS.
  • ASACUSA (Atomic Spectroscopy And Collision Using
    Slow Antiprotons).
  • ATHENA (Antihydrogen Production and Precision
    Experiments).
  • ATRAP (Cold Anti hydrogen for precise laser
    Spectroscopy).

10
STORAGE.
  • Traps.
  • Appropriate configuration of electric and
    magnetic fields.
  • Good vacuum.

11
ANTIMATTER IN PROPULSION SYSTEM
  • Annihilation.
  • Newtonian rocket.
  • 100 milligram for Space Shuttle.

12
ANTIMATTER PROPULSION SYSTEMS.
  • Two choice of propulsion
  • 1)Electron-positron annihilation.
  • produces high energy gamma rays.
  • impossible to control.
  • very dangerous.
  • 2)Proton-antiproton annihilation.
  • produces charged particles.
  • mass left over after annihilation.

13
1)SOLID CORE.
  • Solid core heat exchanger.
  • Superheats hydrogen propellants.
  • Specific impulse1000sec

14
2)GAS CORE.
  • Annihilation occurs in hydrogen propellant.
  • Particles controlled in magnetic field.
  • Loss in the form of gamma rays.
  • Specific impulse2500sec

15
3)PLASMA CORE.
  • Annihilation of larger amount of antimatter.
  • Loss in the form of gamma rays.
  • Plasma is expelled to produce thrust.
  • Specific impulse between 5000 to 10000sec.

16
4)BEAM CORE.
  • Direct one to one annihilation.
  • Used directly as the exhausted propellant.
  • Specific impulse10,000,000sec

17
POSITRON EMISSION TOMOGRAPHY (PET) SCAN.
  • Positron incorporated in a special fluid injected
    into the patient.
  • Annihilate with electrons.
  • Energy emerges as gamma rays.
  • PET radiograph reveals inner structure.
  • Widely used in brain scans.

18
ANTIMATTER DETONATION.
  • Output highly depends on regular matter
    surrounding the bomb.
  • Gamma rays are absorbed.
  • Lose half their energy per 500 to 1000m of air
    compared to 20cm of concrete.
  • Explosion would not cause much physical damage.
  • No practical or destructive as conventional
    nuclear weapons.

19
ANTIMATTER IN NATURE.
  • Matter antimatter were created in gigantic Big
    Bang.
  • Two possibilities
  • Either antimatter completely disappeared.
  • Separated from each other.

20
ALPHA MAGNETIC SPECTROMETER
  • High energy particle detector.
  • Carried on Space Shuttle.
  • In 2004,a new version of experiment installed on
    the International Space Station.

21
PROBLEMS IN PRODUCTION.
  • Only 1 to 10 nano grams produced a year.
  • Most expensive substance on earth.
  • 1 gram cost about 62.5 trillion.
  • So not economical using current technology.

22
PROBLEMS IN STORAGE.
  • Current trap can only store 1010 antiproton for
    one week.
  • Next stage an improvement to 1012 antiproton
    storage.
  • For complete antimatter propulsion, 1020
    antiprotons needed to be stored.

23
CONCLUSION
  • Due to the highest energy release per unit mass
    of any known reaction we can say that antimatter
    will be a future fuel but need a reliable method
    of producing large amount of it.

24
THANK YOU..
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