6533b859fe1ef96bd12b83f6

RESEARCH PRODUCT

A Search for Heavy Stable and Long-Lived Squarks and Sleptons in $e^+ e^-$ Collisions at Energies from 130 to 183 GeV

P. AbreuW. AdamT. AdyeP. AdzicT. AldeweireldG. D. AlekseevR. AlemanyT. AllmendingerP. P. AllportS. AlmehedU. AmaldiS. AmatoE. G. AnassontzisP. AnderssonA. AndreazzaS. AndringaP. AntilogusW-d ApelY. ArnoudB. ÅsmanJ-e AugustinA. AugustinusP. BaillonP. BambadeF. BaraoG. BarbielliniR. BarbierD. Y. BardinG. BarkerA. BaroncelliM. BattagliaM. BaubillierK-h BecksM. BegalliP. BeilliereY. BelokopytovK. BelousA. C. BenvenutiC. BeratM. BerggrenD. BertiniD. BertrandM. BesanconF. BianchiM. BigiM. S. BilenkyM-a BizouardD. BlochH. M. BlomM. BonesiniW. BoniventoM. BoonekampP. S. L. BoothA. W. BorglandG. BorisovC. BosioO. BotnerE. BoudinovB. BouquetC. BourdariosT. J. V. BowcockI. BoykoI. BozovicM. BozzoP. BranchiniT. BrenkeR. A. BrennerP. BruckmanJ-m BrunetL. BuggeT. BuranT. BurgsmuellerP. BuschmannS. CabreraM. CacciaM. CalviA. J. Camacho RozasT. CamporesiV. CanaleF. CarenaL. CarrollC. CasoM. V. Castillo GimenezA. CattaiF. R. CavalloV. ChabaudM. ChapkinP. CharpentierL. ChaussardP. ChecchiaG. A. ChelkovR. ChiericiP. ChliapnikovP. ChochulaV. ChorowiczJ. ChudobaP. CollinsM. ColomerR. ContriE. CortinaG. CosmeF. CossuttiJ-h CowellH. B. CrawleyD. CrennellG. CrosettiJ. Cuevas MaestroS. CzellarG. DamgaardM. DavenportW. Da SilvaA. DeghorainG. Della RiccaP. DelpierreN. DemariaA. AngelisW. BoerS. BrabandereC. ClercqB. LottoA. MinL. PaulaH. DijkstraL. Di CiaccioJ. DolbeauK. DorobaM. DracosJ. DreesM. DrisA. DuperrinJ-d DurandG. EigenT. EkelofG. EkspongM. EllertM. ElsingJ-p EngelB. ErzenM. Espirito SantoE. FalkG. FanourakisD. FassouliotisJ. FayotM. FeindtA. FenyukP. FerrariA. FerrerE. Ferrer-ribasS. FichetA. FirestoneP. -A FischerU. FlagmeyerH. FoethE. FokitisF. FontanelliB. FranekA. G. FrodesenR. FruhwirthF. Fulda-quenzerJ. FusterA. GalloniD. GambaS. GamblinM. GandelmanC. GarciaJ. GarciaC. GasparM. GasparU. GaspariniP. GavilletE. N. GazisD. GeleN. GhodbaneI. GilF. GlegeR. GokieliB. GolobG. Gomez-ceballosP. GoncalvesI. Gonzalez CaballeroG. GopalL. GornM. GorskiY. GouzV. GraccoJ. GrahlE. GrazianiC. GreenH-j GrimmP. GrisK. GrzelakM. GuntherJ. GuyF. HahnS. HahnS. HaiderA. HallgrenK. HamacherF. J. HarrisV. HedbergS. HeisingJ. J. HernandezP. HerquetH. HerrT. L. HessingJ. -M HeuserE. HigonS-o HolmgrenP. J. HoltD. HolthuizenS. HoorelbekeM. HouldenJ. HrubecK. HuetK. HultqvistJ. N. JacksonR. JacobssonP. JalochaR. JanikC. JarlskogG. JarlskogP. JarryB. Jean-marieE. K. JohanssonP. JonssonC. JoramP. JuillotF. KapustaK. KarafasoulisS. KatsanevasE. C. KatsoufisR. KeranenB. P. KersevanB. A. KhomenkoN. N. KhovanskiA. KiiskinenB. KingN. J. KjaerO. KlappH. KleinP. KluitP. KokkiniasM. KoratzinosV. KostioukhineC. KourkoumelisO. KouznetsovM. KrammerC. KreuterE. KriznicJ. KrsticZ. KrumsteinP. KubinecW. KucewiczK. KurvinenJ. W. LamsaD. W. LaneP. LangefeldV. LapinJ-p LaugierR. LauhakangasG. LederF. LedroitV. LefebureL. LeinonenA. LeisosR. LeitnerJ. LemonneG. LenzenV. LepeltierT. LesiakM. LethuillierJ. LibbyD. LikoA. LipniackaI. LippiB. LoerstadJ. G. LokenJ. H. LopesJ. M. LopezR. Lopez-fernandezD. LoukasP. LutzL. LyonsJ. MacnaughtonJ. R. MahonA. MaioA. MalekT. G. M. MalmgrenV. MalychevF. MandlJ. MarcoR. MarcoB. MarechalM. MargoniJ-c MarinC. MariottiA. MarkouC. Martinez-riveroF. Martinez-vidalS. Marti I GarciaN. MastroyiannopoulosF. MatorrasC. MatteuzziG. MatthiaeJ. MazikF. MazzucatoM. MazzucatoM. Mc CubbinR. Mc KayR. Mc NultyG. Mc PhersonC. MeroniW. T. MeyerE. MiglioreL. MirabitoW. A. MitaroffU. MjoernmarkT. MoaR. MoellerK. MoenigM. R. MongeX. MoreauP. MorettiniG. MortonU. MuellerK. MuenichM. MuldersC. Mulet-marquisR. MuresanW. J. MurrayB. MurynG. MyattT. MyklebustF. NaraghiF. L. NavarriaS. NavasK. NawrockiP. NegriN. NeufeldN. NeumeisterR. NicolaidouB. S. NielsenM. NikolenkoV. NomokonovA. NormandA. NygrenV. ObraztsovA. G. OlshevskiA. OnofreR. OravaG. OraziK. OsterbergA. OuraouM. PaganoniS. PaianoR. PainR. PaivaJ. PalaciosH. PalkaT. D. PapadopoulouK. PapageorgiouL. PapeC. ParkesF. ParodiU. ParzefallO. PassonM. PegoraroL. PeraltaM. PernickaA. PerrottaC. PetridouA. PetroliniH. T. PhillipsF. PierreM. PimentaE. PiottoT. PodobnikM. E. PolG. PolokP. PoropatV. PozdniakovP. PriviteraN. PukhaevaA. PulliaD. RadojicicS. RagazziH. RahmaniD. RakoczyJ. RamesP. N. RatoffA. L. ReadP. RebecchiN. G. RedaelliM. ReglerD. ReidR. ReinhardtP. B. RentonL. K. ResvanisF. RichardJ. RidkyG. RinaudoO. RohneA. RomeroP. RoncheseE. I. RosenbergP. RosinskyP. RoudeauT. RovelliV. Ruhlmann-kleiderA. RuizH. SaarikkoY. SacquinA. SadovskyG. SajotJ. SaltD. SampsonidisM. SanninoH. SchneiderP. SchwemlingU. SchwickerathM. A. E. SchynsF. ScuriP. SeagerY. SedykhA. M. SegarR. SekulinR. C. ShellardA. SheridanM. SiebelR. SilvestreL. SimardF. SimonettoA. N. SisakianT. B. SkaaliG. SmadjaN. SmirnovO. SmirnovaG. R. SmithA. SopczakR. SosnowskiT. SpassovE. SpiritiP. SponholzS. SquarciaD. StampferC. StanescuS. StanicS. StapnesK. StevensonA. StocchiR. StrubB. StuguM. SzczekowskiM. SzeptyckaT. TabarelliF. TegenfeldtF. TerranovaJ. ThomasA. TilquinJ. TimmermansL. G. TkatchevS. TodorovaD. Z. ToetA. TomaradzeBernardo ToméA. TonazzoL. TortoraG. TranstromerD. TreilleG. TristramC. TronconA. TsirouM-l TurluerI. A. TyapkinS. TzamariasB. UeberschaerO. UllalandV. UvarovG. ValentiE. VallazzaC. Vander VeldeG. W. ApeldoornP. DamW. K. DoninckJ. EldikA. LysebettenI. VulpenN. VassilopoulosG. VegniL. VenturaW. VenusF. VerbeureM. VerlatoL. S. VertogradovV. VerziD. VilanovaL. VitaleE. VlasovA. S. VodopyanovC. VollmerG. VoulgarisV. VrbaH. WahlenC. WalckC. WeiserD. WickeJ. H. WickensG. R. WilkinsonM. WinterM. WitekG. WolfJ. YiO. YushchenkoA. ZaitsevA. ZalewskaP. ZalewskiD. ZavrtanikE. ZevgolatakosN. I. ZiminG. C. ZucchelliG. Zumerle

subject

Nuclear and High Energy PhysicsParticle physicsPhysics::Instrumentation and DetectorsFOS: Physical sciences01 natural sciencesRing-imaging Cherenkov detectorPartícules (Física nuclear)High Energy Physics - ExperimentPHYSICSHigh Energy Physics - Experiment (hep-ex)Ionization0103 physical sciencesCHARGED-PARTICLES; SUPERSYMMETRY; PHYSICS; LEP[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]010306 general physicsNuclear ExperimentSUPERSYMMETRYCherenkov radiationDELPHIPhysicsTime projection chamber010308 nuclear & particles physicsHigh Energy Physics::PhenomenologyCharge (physics)LEPLARGE ELECTRON POSITRON COLLIDERCharged particleCHARGED-PARTICLESPARTICLE PHYSICS; LARGE ELECTRON POSITRON COLLIDER; DELPHIPARTICLE PHYSICSFísica nuclearHigh Energy Physics::ExperimentParticle Physics - Experiment

description

A search for stable and long-lived heavy charged particles used the data taken by the DELPHI experiment at energies from 130 to 183 GeV. The Cherenkov light detected in the Ring Imaging Cherenkov Detector and the ionization loss measured in the Time Projection Chamber identify heavy particles from masses of 2 to nearly 89 GeV/c$^2$. Upper limits are given on the production cross-section and masses of sleptons, free squarks with a charge of $q = \pm 2/3e$ and hadronizing squarks. A search for stable and long-lived heavy charged particles used the data taken by the DELPHI experiment at energies from 130 to 183 GeV. The Cherenkov light detected in the Ring Imaging Cherenkov Detector and the ionization loss measured in the Time Projection Chamber identify heavy particles from masses of 2 to nearly 89 GeV/c^2. Upper limits are given on the production cross-section and masses of sleptons, free squarks with a charge of $q = \pm 2/3e$ and hadronizing squarks. A search for stable and long-lived heavy charged particles used the data taken by the DELPHI experiment at energies from 130 to 183 GeV. The Cherenkov light detected in the Ring Imaging Cherenkov Detector and the ionization loss measured in the Time Projection Chamber identify heavy particles from masses of 2 to nearly 89 GeV/c^2. Upper limits are given on the production cross-section and masses of sleptons, free squarks with a charge of $q = \pm 2/3e$ and hadronizing squarks. A search for stable and long-lived heavy charged particles used the data taken by the DELPHI experiment at energies from 130 to 183 GeV. The Cherenkov light detected in the Ring Imaging Cherenkov Detector and the ionization loss measured in the Time Projection Chamber identify heavy particles from masses of 2 to nearly 89 GeV/c^2. Upper limits are given on the production cross-section and masses of sleptons, free squarks with a charge of $q = \pm 2/3e$ and hadronizing squarks. A search for stable and long-lived heavy charged particles used the data taken by the DELPHI experiment at energies from 130 to 183 GeV. The Cherenkov light detected in the Ring Imaging Cherenkov Detector and the ionization loss measured in the Time Projection Chamber identify heavy particles from masses of 2 to nearly 89 GeV/c^2. Upper limits are given on the production cross-section and masses of sleptons, free squarks with a charge of $q = \pm 2/3e$ and hadronizing squarks. A search for stable and long-lived heavy charged particles used the data taken by the DELPHI experiment at energies from 130 to 183 GeV. The Cherenkov light detected in the Ring Imaging Cherenkov Detector and the ionization loss measured in the Time Projection Chamber identify heavy particles from masses of 2 to nearly 89 GeV/c^2. Upper limits are given on the production cross-section and masses of sleptons, free squarks with a charge of $q = \pm 2/3e$ and hadronizing squarks. A search for stable and long-lived heavy charged particles used the data taken by the DELPHI experiment at energies from 130 to 183 GeV. The Cherenkov light detected in the Ring Imaging Cherenkov Detector and the ionization loss measured in the Time Projection Chamber identify heavy particles from masses of 2 to nearly 89 GeV/c^2. Upper limits are given on the production cross-section and masses of sleptons, free squarks with a charge of $q = \pm 2/3e$ and hadronizing squarks. A search for stable and long-lived heavy charged particles used the data taken by the DELPHI experiment at energies from 130 to 183 GeV. The Cherenkov light detected in the Ring Imaging Cherenkov Detector and the ionization loss measured in the Time Projection Chamber identify heavy particles from masses of 2 to nearly 89 GeV/c^2. Upper limits are given on the production cross-section and masses of sleptons, free squarks with a charge of $q = \pm 2/3e$ and hadronizing squarks. A search for stable and long-lived heavy charged particles used the data taken by the DELPHI experiment at energies from 130 to 183 GeV. The Cherenkov light detected in the Ring Imaging Cherenkov Detector and the ionization loss measured in the Time Projection Chamber identify heavy particles from masses of 2 to nearly 89 GeV/c^2. Upper limits are given on the production cross-section and masses of sleptons, free squarks with a charge of $q = \pm 2/3e$ and hadronizing squarks. A search for stable and long-lived heavy charged particles used the data taken by the DELPHI experiment at energies from 130 to 183 GeV. The Cherenkov light detected in the Ring Imaging Cherenkov Detector and the ionization loss measured in the Time Projection Chamber identify heavy particles from masses of 2 to nearly 89 GeV/c^2. Upper limits are given on the production cross-section and masses of sleptons, free squarks with a charge of $q = \pm 2/3e$ and hadronizing squarks. A search for stable and long-lived heavy charged particles used the data taken by the DELPHI experiment at energies from 130 to 183 GeV. The Cherenkov light detected in the Ring Imaging Cherenkov Detector and the ionization loss measured in the Time Projection Chamber identify heavy particles from masses of 2 to nearly 89 GeV/c 2 . Upper limits are given on the production cross-section and masses of sleptons, free squarks with a charge of q=± 2 3 e and hadronizing squarks.

yearjournalcountryeditionlanguage
1998-01-01
http://hal.in2p3.fr/in2p3-00001121