-
antiparticle of the proton) can form an
antihydrogen atom. The
nuclei of
antihelium have been
artificially produced,
albeit with difficulty, and are the most...
-
antitritium ( T ), and
antihelium ( He ) are much more
difficult to produce. Antideuterium,
antihelium-3 (3 He ) and
antihelium-4 (4 He )
nuclei have been...
- June 1998. By not
detecting any
antihelium at all, the AMS-01
established an
upper limit of 1.1×10−6 for the
antihelium to
helium flux ratio. Physicists...
-
Antimatter Antiparticles Positron Antiproton Antineutron Antihydrogen Antihelium Onia
Antiprotonic hydrogen Antiprotonic helium Muonium True
muonium Pionium...
- into an "antinucleus". So far,
scientists have
created antideuterium and
antihelium-3 nuclei. ^a The m****es of the
proton and
neutron are
known with far greater...
-
Antimatter Antiparticles Positron Antiproton Antineutron Antihydrogen Antihelium Onia
Antiprotonic hydrogen Antiprotonic helium Muonium True
muonium Pionium...
- atoms, but has not been observed, as
complex antimatter atoms beyond antihelium are not
experimentally available. Such a
decay would require antimatter...
- in June 1998. By not
detecting any
antihelium, the AMS-01
established an
upper limit of 1.1×10−6 for the
antihelium-to-helium flux
ratio and
proved that...
- June 1998. By not
detecting any
antihelium at all, the AMS-01
established an
upper limit of 1.1 × 10−6 for the
antihelium to
helium flux ratio. The moon...
-
Antimatter Antiparticles Positron Antiproton Antineutron Antihydrogen Antihelium Onia
Antiprotonic hydrogen Antiprotonic helium Muonium True
muonium Pionium...
