1 / 33

(Present) Accelerator Neutrino Experiments

Aug.26, 2005 Lomonosov conf @ Moscow U. (Present) Accelerator Neutrino Experiments. Contents Introduction Oscillation experiments Long baseline: K2K(final resutls) , MINOS , ( CNGS, T2K ) Short baseline: MiniBooNE Non-oscillation experiments/measurements

asabi
Download Presentation

(Present) Accelerator Neutrino Experiments

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Aug.26, 2005 Lomonosov conf @ Moscow U. (Present) Accelerator Neutrino Experiments • Contents • Introduction • Oscillation experiments • Long baseline: K2K(final resutls), MINOS, (CNGS, T2K) • Short baseline: MiniBooNE • Non-oscillation experiments/measurements • Neutrino interactions: K2K, MiniBooNE,..(MINERnA) • DIS • Summary Takashi Kobayashi IPNS, KEK

  2. Pure(~99%) nm (nm) beam (cf. nm:ne~2:1 in atm n) ~% ne from (p)m & K decay Oscillation experiments Flavor contents after propagation  mass & mixing in lepton sector Measure nm:disappearance, look for nl≠m: Appearance Non-oscillation experiments/measurements nm+Nucleus interactions in GeV region (resonance, coherent,..)  for future precision oscillation measurements Nucleon structure with weak bosons as probes (DIS) Electroweak couplings of light quarks  sinqW (DIS) Accelerator neutrino experiments nm(nm) nl(nl) nl(nl) l-(l+) m+(-) p p+(-) Propagation W+(-)/Z0 N Production Nucleus q Detection

  3. Neutrino mixing If neutrino have finite mass, weak and mass eigenstates can differ mi: 3 masses, Dmij: 2 differences Weak Mass eigenstates Maki-Nakagawa-SakataMatrix sij=sinqij, cij=cosqij 3 mixing angles and 1 CPV phase sin22q12~0.8 (Solar) sin22q23~1 (Atm n) Reactor Long baseline experiments

  4. Signature: Decrease of original flavor (appearance of diff flavor) Spect. Distortion Osc. Max 1.27Dm232L/E=p/2 E=0.6GeV @L=250km,Dm2=0.003 Neutrino oscillation Oscillation Probability mass eigenvalues Plm≠dml ⇔ Dmij ≠0, Non-zero off-diag U In 2 flavor approximation L (km), E (GeV) Osc. Prob. 1-P(nmnt) L=250km, Dm232=3x10-3eV2 2 1 En(GeV)

  5. Long baseline osc. experiments • Evidence of n osc in Atm n at SK (1998) • First observation contradictory to SM • Small but non-zero mass!! • Large mixing!!! • 1st generation LBL experiments • Confirmation of SK atm n results • w/ different, controlled systematics • K2K (1999~2004) • MINOS (2005~) • CNGS(2006~)-OPERA/ICARUS SK Atm n result Preliminary Suzuki LP2005 Dm2 = 2.5 x 10-3 eV2, sin22q = 1.0 2.0 < Dm2 < 3.0 x 10-3 eV2, sin22q > 0.93 (90%CL)

  6. K2K experiment First long baseline(250km) neutrino experiment. nm disappearance and ne appearance 250km Pure nm beam (99%) w/ <En>~1.3GeV • 12GeV PS • nm beam • Beam monitor • Near detector 50 kton Water Cherenkov detector Experiment started in April, 1999 Terminated in November, 2004

  7. Strategy of K2K Pion monitor (PIMON) nm p+ m+ SK Target+Horn 100m ~250km 200m decay pipe MUMON ND • Predict • # of events • nmspectrum • nm @ production • Abs. norm: 1KT • spectrum:1KT&FGD Extrapolate using Far/Near spect. ratio (MC) (MC) (MC) arb. unit w/o osc. arb. unit w/ osc? (MC) measure w/ ND Confirmed by PIMON/HARP

  8. SciBar detector Oct. 2003~ Fully active fine grained scintillation tracker Good for multi track, low E thresh.  high stat n int studies Neutrino Detectors Super-Kamiokande I Inner detector 41.4m 1114620” PMTs Outer detector 18858” PMTs 39m K2K-I Near neutrino detectors From Mar.1999 ~ Jul.2001 Muon range detector K2K-II From Dec.2002 ~ Nov. 2004 Super-Kamiokande II Inner detector ~5200 PMTs with covers Outer detector :1885 PMTs

  9. Beam POT delivered K2K-I : 0.561x1020 POT K2K-II: 0.488x1020 POT 100 K2K-I K2K-II Total POT delivered Jun.1999 – Nov.2004 1.049x1020 POT Used for analysis 0.922x1020POT Delivered POT(x1018) Date 1mrad Muon direction 1mrad

  10. Near detector measurements • Normalization • Total number of events in 1kt-WC detector • 100MeV threshold • 74.9% efficiency  Over all normalization • Spectrum • Combined (1kt+Scifi+SciBar) fit of (pm, qm) distribution

  11. F/N spectrum ratio for extrapolation (F/N)K2K =0.8264x10-6 (F/N)HARP=0.8246x10-6 (-0.2%) HARP Result • Use beam MC for F/N ratio central value • Sanford-Wang model w/ Cho(CERN) data • Confirmed by in-situ PIMON & HARP measurements • Error • >1GeV: PIMON measurement error • <1GeV: Model parameter uncertainty Hadron prod meas. at CERN-PS 12.9GeV/c p on Al PIMON Result New!

  12. Observation and Expectation at SK Dominant error Far/Near +7.9evt - 7.7evt 155.9 +11.5(7.4%) - 10.2(6.5%) Norm. +7.5evt - 7.6evt • Fully Contained • Evis>30MeV • Fid. Vol (2m cut) • 0.2<Tdiff<1.3ms 112 events -1 1 Tdiff(ms) 2.8s effect to no osc. Deficit 3.1s Reconstructed En (GeV) (assuming CCQE) Sys. err on # of evts Spectrum syst. (1 ring m) (depend on the energy bin) Ring count ~3~5% Fiducial volume 2% Particle Id <1% Energy scale ~2%

  13. Allowed parameter region (#evts/spect combined) slice atsin22q = 1.0 10-2 Dm2 (eV2) 10-3 68% 90% 99% sin22q slice at2.55x10-3 (eV2) 99% 90% 68% sin22q 4.2s Confirmation of the oscillation consistent with the atmospheric neutrino oscillation Best fit value (all region) sin22q = 1.19  0.23 Dm2 = (2.55  0.40)x10-3eV2 (in physical region) sin22q = 1.0 Dm2 = (2.76  0.36)x10-3eV2 1.8810-3 Dm2 3.4810-3 eV2 (90%CL) @ sin22q=1

  14. For K2KI+II FCFV 112 ev Single Ring 67 e-like 9 Further Reduction tight e –ID 8 Evis>100 MeV 7 No e from me 5 Pi0 cut 1 Efficiency 35.7% for K2K-I 40.9% for K2K-II Candidate Electron appearance Eg1: 266.7MeV Eg2: 170.8MeV qgg: 22.5 deg. Mgg: 83.1MeV/c2 BG nm int. beam ne 1.63 ev 1.25 0.38 K2K-I 0.60% 17.1% K2K-II 0.80% 20.4%

  15. Neutral pion rejection Pi0 cut: Forced to find 2nd e/g-ring SK Atm n DATA/MC K2K-MC nm BG MC (1Re) 1 Ring electron in atm. n (150MeV<Evis<250MeV) (rejected as p0 like) 100 p0 induced event (selected) Mgg(MeV/c2) signal ne (Dm2=2.8e-3) 100 • Reject 70% of neutral pions • (efficiency loss 30%) (selected) Rec. momentum of the 1st ring (MeV/c)

  16. Limit on the oscillation parameters Expected # of electron cand. (Feldman-Cousins approach) limit sensitivity sin22qme <0.18 @2.8x10-3eV2 Expected BG: 1.63 Observed: 1 <0.16 @3x10-3 eV2 <0.25 @2x10-3 eV2 CHOOZ limit me

  17. MINOS FNAL 120GeV Main Injector  Soudan mine (735km) Horn-focused wide band nm beam Tunable nm CC int./MINOS/yr ~ 2,500 (LE beam) (magnetized)Iron-scintillator sampling calorimeter 5,400tons @ far, 980tons @ near nm disappearance Oscillatory behavior Precise determination of Dm232, q23 Wide band nm beam 20 5 30 735km Far detector

  18. (~5 yrs) aim: Dm2 < 10% beam events Sensitivity Near detector events Preliminary pHE pME LE If q13 is close to the CHOOZ limt, MINOS will see >3s effect in ~3 years of running E (GeV) Far detector events

  19. CERN 400GeV SPS  Gran Sasso nt appearance (+ ne appearance) 4.5x1019POT/yr Wide band nm beam ~2900nm CC events/kt/yr First beam to GS May 2006 Underground civil const. finished Jun.20,2003 Beam line instrumentation being installed OPERA (next next talk for detail!) t ID by decay topology (kink) Emulsion-Counter Hybrid Total mass 1700 ton For 5yrs @4.5x1019POT/yr(200d) 12.8 nt (0.8BG) for 2.4x10-3 eV2 Start in June, 2006 with 850 tons emulsion film ICARUS: Liq. Ar TPC 600ton in mine (T600). T1200 “abandoned“ by INFN CERN neutrino to Gran Sasso (CNGS) m m 300 1 1 mm mm t t n n Pb Pb Emulsion layers Emulsion layers 732km <En>=17GeV 10 20 30 En(GeV) OPERA ECC

  20. J-PARC (50 GeV/750kW PS) Construction: 2001~2007 Operation: 2008~ T2K (Approved in Dec-03) Construction: 2004~2008 Experiment: 2009 ~ Phase 1 (0.75MW + SK) nmnx disappearance Precise Dm2, sin22q nmne appearance Finite q13 ? Tokai-to-Kamioka (T2K) (~100xK2K) J-PARC@Tokai-mura (60km N.E. of KEK) Super-K 50kton Off-axis beam: Narrow intense 1600nmCC/yr/22.5kt ne ~ 0.4% at peak (2.5deg) Phase 2  4MW, Mton, CPV

  21. Construction status Graphite target prototype Superconducting combined function magnet Decay pipe installation Horn prototype Feb. 9, 2005

  22. Sensitivities ne disappearance nm disappearance (OA2.5) Stat. only --68%CL (Dln L=0.5) --90%CL (Dln L=1.36) --99%CL (Dln L=3.32) CHOOZ 90% KASKA 90% (NuFact04) Goal d(sin22q23)~0.01 d(Dm232)~<1×10-4 >10 times improvement from CHOOZ

  23. Short baseline experiment • LSND observe osc signal • LANL 800MeV/1mA p beam • m+ decay at rest in beam stop • En<53MeV, L~30m • Dm2~1eV2, sin22q~10-(2~3) • If true • 3 mass diff. (sol/atm/LSND) • >3 n’s? • Sterile? (LEP says # of light n=3) • CPV? • Mass spect different for n/anti-n? • Definite confirmation necessary • w/ different systematics  MiniBooNE ? LSND allowed

  24. MiniBooNE Primary (protons) Secondary (mesons) Tertiary (neutrinos) FNAL Booster 8GeV Sensitivity Spectrum Look for ne in nm beam at ~ GeV Beam • 8 GeV proton beam on Be target • Horn-focused wide-band beam Detector @ L~541m • 800ton of pure mineral oil • 1280 (240) PMT’s in inner(outer) region • Cherenkov and scintillation light Expected observation @ 1021pot • Signal : 300 • Background 780 (NCp0 & beam ne dominant)  e/ 0.5% 1 2 En(GeV)

  25. MiniBooNE Status • Data taking since Aug.2002 • 5.78x1020pot so far (Jun.20,2005) • >600k n interaction recorded. • Detector calibration, studies of n interactions • Signal box will be open in late 2005 Energy Calibration p0 invariant mass

  26. Non-oscillation exp’s/measurements

  27. n interaction @ ~ 1GeV • Future precision oscillation experiments • En = Several 100MeV ~ A few GeV • Neutrino interactions around ~GeV : Complicated! • CCQE: 2 body, clean energy reconstruction • CC/NC pion productions  Source of syst err/background • Deteriorate Enreconstruction • Serious background from NC p0 production important for ne appearance • Very limited data • Let’s measure!! • Players • K2K near detector • MiniBooNE • MINERnA p m K2K SciBar CCqe candidate

  28. K2K NC p0 measurement in 1kt det nm+H2ONC1p0 • Important for future ne appearance • Selection • Fully contained • 2 e-like rings • 85<Mgg<215MeV not NC1p0 =0.0640.0010.007 =0.065 (model prediction) Phys.Lett.B619:255-262,2005hep-ex/0408134

  29. K2K CC Coh. pion measurement M. Hasegawa et al., hep-ex/0506008 2track non-QE-like CC Coherent pion production (nm+A  m-+p++A) w/ SciBar det. • K2K & MiniBooNE has been observing forward (low q2) deficit • CC Coh doubted • CC Coh enhanced sample selection • 2 track • not satisfy QE kinematics (non-QE like) • 2nd track pion (not proton) • No vertex activity • qrec2<0.1(GeV/c)2 • Result • 113 event selected • BG (non CC Coh)=111.4 • Consistent w/ No CC Coh. • Upper limit (90%CL) qrec2 CC Coh enhanced sample Inconsistent w/ Rein&Sehgal model of 2.67x10-2

  30. MiniBooNE interaction measurements Require 2 decay-e signal (from m and pm) CCqe sample CC1p sample Preliminary Preliminary Single m ring

  31. MINERnA • New experiment for n int measurements in few GeV region • Active (scintillator bar) target (5.87ton) fine grained detector • Placed in front of MINOS near detector • Expected event rate • 16×1020 POT in 4 years • Fiducial Volumes 3 ton (CH), 0.6 ton C, 1 ton Fe & 1 ton Pb • 15 Million total CC events • Status • Stage 1 approval in Apr.2004 • Fermilab requested DoE funding as part of the laboratory’s FY07 program • Projected schedule • 2006 construction start • 2008 commissioning start 1.7 × 3.3 cm2 strips WLS fiber readout in center hole

  32. n Deep inelastic scattering  sin2qW • NuTeV result (2001) • Ratio of #events of NC(short) to CC(long) events for n/nbar • 3s away from SM • Still open question • NOMAD (1995-1998) is revisiting their data • CERN SPS, A few ~ 100GeV nm • Fit to sNC/sCC & CC diff s Sensitivity d(sin2qW) ~ 1%(compara. to NuTeV) Provide independent check NuTeV NOMAD 2.7ton C (1.3M nmCC) A few ton Al (1.5M nmCC)

  33. Summary • Accelerator neutrino experiments probe/provide • Properties of neutrino (mass, mixings) in osc. exp’ts • Precision measurements of nN interaction • Precision test of standard model • Oscillation experiments • Final results of the first long baseline osc exp K2K • Disapp.:1.8810-3 Dm2 3.4810-3 eV2 (90%CL) @ sin22q=1  Confirms SK results • ne app.:sin22qme <0.18 @2.8x10-3eV2 (90%CL) • MINOS/CNGS LBL experiments is (will be) online from 2005 and 2006 • MiniBooNE result is coming soon • Non-oscillation measurements/experiments • nN interactions are being studied w/ high stat for future precision LBL experiments (K2K, MiniBooNE, NOMAD, MINERnA) • NuTeV’s 3s “discrepancy” from SM still remain. NOMAD will provide independent check with comparable uncertainty • Acc n experiments have potential to provide breakthrough toward Beyond-the-SM. Many future programs planned.  Next Prof. Lindner’s talk.

More Related