Towards a test of the weak equivalence principle of gravity using anti-hydrogen at CERN

The aim of the GBAR (Gravitational Behavior of Antimatter at Rest) experiment is to measure the free fall acceleration of an antihydrogen atom, in the terrestrial gravitational field at CERN and therefore test the Weak Equivalence Principle with antimatter. The aim is to measure the local gravity wi...

Descripción completa

Detalles Bibliográficos
Autores principales: Banerjee, D, Biraben, F, Charlton, M, Cladé, P, Comini, P, Crivelli, P, Dalkarov, O, Debu, P, Dodd, L, Douillet, A, Dufour, G, Dupré, P, Eriksson, S, Froelich, P, Grandemange, P, Guellati, S, Guérout, R, Heinrich, J M, Hervieux, P A, Hilico, L, Husson, A, Indelicato, P, Jonsell, S, Karr, J P, Khabarova, K, Kim, S K, Kim, Y, Kolachevsky, N, Kuroda, N, Lambrecht, A, Leite, A M M, Liszkay, L, Lotrus, P, Lunney, D, Madsen, N, Manfredi, G, Mansouli, B, Matsuda, Y, Mohri, A, Mornacchi, G, Nesvizhevsky, V, Nez, F, Pérez, P, Regenfus, C, Rey, J M, Reymond, J M, Roussé, J -Y, Reynaud, S, Rubbia, A, Sacquin, Y, Schmidt-Kaler, F, Sillitoe, N, Staszczak, M, Torii, H, Vallage, B, Valdes, M, van der Werf, D P, Voronin, A, Walz, J, Wolf, S, Wronka, S, Yamazaki, Y
Lenguaje:eng
Publicado: 2016
Materias:
General Relativity and Cosmology
Particle Physics - Experiment
Acceso en línea:https://dx.doi.org/10.1109/CPEM.2016.7540781
http://cds.cern.ch/record/2262309
_version_ 1780954130128306176
author Banerjee, D
Biraben, F
Charlton, M
Cladé, P
Comini, P
Crivelli, P
Dalkarov, O
Debu, P
Dodd, L
Douillet, A
Dufour, G
Dupré, P
Eriksson, S
Froelich, P
Grandemange, P
Guellati, S
Guérout, R
Heinrich, J M
Hervieux, P A
Hilico, L
Husson, A
Indelicato, P
Jonsell, S
Karr, J P
Khabarova, K
Kim, S K
Kim, Y
Kolachevsky, N
Kuroda, N
Lambrecht, A
Leite, A M M
Liszkay, L
Lotrus, P
Lunney, D
Madsen, N
Manfredi, G
Mansouli, B
Matsuda, Y
Mohri, A
Mornacchi, G
Nesvizhevsky, V
Nez, F
Pérez, P
Regenfus, C
Rey, J M
Reymond, J M
Roussé, J -Y
Reynaud, S
Rubbia, A
Sacquin, Y
Schmidt-Kaler, F
Sillitoe, N
Staszczak, M
Torii, H
Vallage, B
Valdes, M
van der Werf, D P
Voronin, A
Walz, J
Wolf, S
Wronka, S
Yamazaki, Y
author_facet Banerjee, D
Biraben, F
Charlton, M
Cladé, P
Comini, P
Crivelli, P
Dalkarov, O
Debu, P
Dodd, L
Douillet, A
Dufour, G
Dupré, P
Eriksson, S
Froelich, P
Grandemange, P
Guellati, S
Guérout, R
Heinrich, J M
Hervieux, P A
Hilico, L
Husson, A
Indelicato, P
Jonsell, S
Karr, J P
Khabarova, K
Kim, S K
Kim, Y
Kolachevsky, N
Kuroda, N
Lambrecht, A
Leite, A M M
Liszkay, L
Lotrus, P
Lunney, D
Madsen, N
Manfredi, G
Mansouli, B
Matsuda, Y
Mohri, A
Mornacchi, G
Nesvizhevsky, V
Nez, F
Pérez, P
Regenfus, C
Rey, J M
Reymond, J M
Roussé, J -Y
Reynaud, S
Rubbia, A
Sacquin, Y
Schmidt-Kaler, F
Sillitoe, N
Staszczak, M
Torii, H
Vallage, B
Valdes, M
van der Werf, D P
Voronin, A
Walz, J
Wolf, S
Wronka, S
Yamazaki, Y
author_sort Banerjee, D
collection CERN
description The aim of the GBAR (Gravitational Behavior of Antimatter at Rest) experiment is to measure the free fall acceleration of an antihydrogen atom, in the terrestrial gravitational field at CERN and therefore test the Weak Equivalence Principle with antimatter. The aim is to measure the local gravity with a 1% uncertainty which can be reduced to few parts of 10-3.
id oai-inspirehep.net-1594840
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2016
record_format invenio
spelling oai-inspirehep.net-15948402019-09-30T06:29:59Zdoi:10.1109/CPEM.2016.7540781http://cds.cern.ch/record/2262309engBanerjee, DBiraben, FCharlton, MCladé, PComini, PCrivelli, PDalkarov, ODebu, PDodd, LDouillet, ADufour, GDupré, PEriksson, SFroelich, PGrandemange, PGuellati, SGuérout, RHeinrich, J MHervieux, P AHilico, LHusson, AIndelicato, PJonsell, SKarr, J PKhabarova, KKim, S KKim, YKolachevsky, NKuroda, NLambrecht, ALeite, A M MLiszkay, LLotrus, PLunney, DMadsen, NManfredi, GMansouli, BMatsuda, YMohri, AMornacchi, GNesvizhevsky, VNez, FPérez, PRegenfus, CRey, J MReymond, J MRoussé, J -YReynaud, SRubbia, ASacquin, YSchmidt-Kaler, FSillitoe, NStaszczak, MTorii, HVallage, BValdes, Mvan der Werf, D PVoronin, AWalz, JWolf, SWronka, SYamazaki, YTowards a test of the weak equivalence principle of gravity using anti-hydrogen at CERNGeneral Relativity and CosmologyParticle Physics - ExperimentThe aim of the GBAR (Gravitational Behavior of Antimatter at Rest) experiment is to measure the free fall acceleration of an antihydrogen atom, in the terrestrial gravitational field at CERN and therefore test the Weak Equivalence Principle with antimatter. The aim is to measure the local gravity with a 1% uncertainty which can be reduced to few parts of 10-3.oai:inspirehep.net:15948402016
spellingShingle General Relativity and Cosmology
Particle Physics - Experiment
Banerjee, D
Biraben, F
Charlton, M
Cladé, P
Comini, P
Crivelli, P
Dalkarov, O
Debu, P
Dodd, L
Douillet, A
Dufour, G
Dupré, P
Eriksson, S
Froelich, P
Grandemange, P
Guellati, S
Guérout, R
Heinrich, J M
Hervieux, P A
Hilico, L
Husson, A
Indelicato, P
Jonsell, S
Karr, J P
Khabarova, K
Kim, S K
Kim, Y
Kolachevsky, N
Kuroda, N
Lambrecht, A
Leite, A M M
Liszkay, L
Lotrus, P
Lunney, D
Madsen, N
Manfredi, G
Mansouli, B
Matsuda, Y
Mohri, A
Mornacchi, G
Nesvizhevsky, V
Nez, F
Pérez, P
Regenfus, C
Rey, J M
Reymond, J M
Roussé, J -Y
Reynaud, S
Rubbia, A
Sacquin, Y
Schmidt-Kaler, F
Sillitoe, N
Staszczak, M
Torii, H
Vallage, B
Valdes, M
van der Werf, D P
Voronin, A
Walz, J
Wolf, S
Wronka, S
Yamazaki, Y
Towards a test of the weak equivalence principle of gravity using anti-hydrogen at CERN
title Towards a test of the weak equivalence principle of gravity using anti-hydrogen at CERN
title_full Towards a test of the weak equivalence principle of gravity using anti-hydrogen at CERN
title_fullStr Towards a test of the weak equivalence principle of gravity using anti-hydrogen at CERN
title_full_unstemmed Towards a test of the weak equivalence principle of gravity using anti-hydrogen at CERN
title_short Towards a test of the weak equivalence principle of gravity using anti-hydrogen at CERN
title_sort towards a test of the weak equivalence principle of gravity using anti-hydrogen at cern
topic General Relativity and Cosmology
Particle Physics - Experiment
url https://dx.doi.org/10.1109/CPEM.2016.7540781
http://cds.cern.ch/record/2262309
work_keys_str_mv AT banerjeed towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT birabenf towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT charltonm towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT cladep towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT cominip towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT crivellip towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT dalkarovo towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT debup towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT doddl towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT douilleta towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT dufourg towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT duprep towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT erikssons towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT froelichp towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT grandemangep towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT guellatis towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT gueroutr towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT heinrichjm towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT hervieuxpa towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT hilicol towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT hussona towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT indelicatop towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT jonsells towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT karrjp towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT khabarovak towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT kimsk towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT kimy towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT kolachevskyn towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT kurodan towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT lambrechta towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT leiteamm towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT liszkayl towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT lotrusp towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT lunneyd towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT madsenn towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT manfredig towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT mansoulib towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT matsuday towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT mohria towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT mornacchig towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT nesvizhevskyv towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT nezf towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT perezp towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT regenfusc towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT reyjm towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT reymondjm towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT roussejy towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT reynauds towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT rubbiaa towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT sacquiny towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT schmidtkalerf towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT sillitoen towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT staszczakm towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT toriih towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT vallageb towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT valdesm towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT vanderwerfdp towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT voronina towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT walzj towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT wolfs towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT wronkas towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern
AT yamazakiy towardsatestoftheweakequivalenceprincipleofgravityusingantihydrogenatcern

Ejemplares similares