Gravitational Behaviour of Antihydrogen at Rest

E210175

Gravitational Behaviour of Antihydrogen at Rest is a physics experiment designed to precisely measure how antimatter, specifically antihydrogen atoms, responds to Earth's gravitational field.

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Gravitational Behaviour of Antihydrogen at Rest canonical 3

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Predicate Object
instanceOf antimatter gravity experiment
fundamental physics experiment
physics experiment
aimsTo constrain possible deviations from standard gravity for antimatter
obtain a direct measurement of the gravitational mass of antihydrogen
provide experimental input to theories of matter–antimatter asymmetry
characterizedBy antihydrogen initially at rest or near rest
high-precision tracking of annihilation positions
observation of free-fall trajectories
contributesTo constraints on alternative theories of gravity
tests of fundamental symmetries involving antimatter
understanding of gravity at the quantum scale
focusesOn Earth’s gravitational field
antihydrogen atoms
antimatter
hasGoal compare gravitational behaviour of matter and antimatter
determine whether antihydrogen falls down or up in Earth’s gravitational field
measure gravitational acceleration of antihydrogen at rest
test the weak equivalence principle with antimatter
investigates possible anomalous gravitational behaviour of antimatter
whether gravitational acceleration of antihydrogen equals that of hydrogen
measures effective gravitational acceleration of antihydrogen
vertical motion of antihydrogen at low kinetic energy
relatedTo antimatter research
equivalence principle tests
precision measurements in fundamental physics
quantum systems in gravitational fields
requires control of electromagnetic fields
minimization of systematic effects on antihydrogen motion
production of cold antihydrogen
studies free-fall motion of antihydrogen atoms
gravitational interaction of antihydrogen with Earth
sign and magnitude of gravitational acceleration of antihydrogen
tests CPT symmetry implications for gravity
equivalence between inertial and gravitational mass for antihydrogen
general relativity with antimatter
uses magnetic confinement of antihydrogen
precision position and time measurements
trapped antihydrogen atoms
ultra-high vacuum environment

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Referenced by (3)

Full triples — surface form annotated when it differs from this entity's canonical label.

GBAR experiment fullName Gravitational Behaviour of Antihydrogen at Rest
GBAR fullName Gravitational Behaviour of Antihydrogen at Rest
GBAR acronymFor Gravitational Behaviour of Antihydrogen at Rest