Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 1 PHYS 5326 – Lecture #7 Monday, Feb. 19, 2007 Dr. Jae Yu 1.Neutrino Oscillation Experiments 2.Long.

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Presentation transcript:

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 1 PHYS 5326 – Lecture #7 Monday, Feb. 19, 2007 Dr. Jae Yu 1.Neutrino Oscillation Experiments 2.Long Base Line Experiments 3.Short Base Line Experiments 4.Future Projects

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 2 Neutrino Oscillation First suggestion of neutrino mixing by B. Pontecorvo to explain K 0, K 0 -bar mixing in 1957 Solar neutrino deficit in 1969 by Ray Davis in Homestake Mine in SD.  Called MSW (Mikheyev-Smirnov-Wolfenstein) effect –Describes neutrino flavor conversion in medium Caused by the two different eigenstates for mass and weak Neutrinos change their flavor as they travel  Neutrino flavor mixing Oscillation probability depends on –The distance between the source and the observation point –The energy of the neutrinos –The difference in square of the masses

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 3 Oscillation Probability Substituting the energies into the wave function: where and. Since the ’s move at the speed of light, t=x/c, where x is the distance to the source of . The probability for  with energy E oscillates to e at the distance L from the source becomes

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 4 Atmospheric Neutrinos Neutrinos resulting from the atmospheric interactions of cosmic ray particles –  to e is about 2 to 1 –He, p, etc + N  ,K, etc       e+ e +  –This reaction gives 2  and 1 e Expected flux ratio between  and e is 2 to 1 Form a double ratio for the measurement

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 5 Super Kamiokande Kamioka zinc mine, Japan 1000m underground 40 m (d) x 40m(h) SS 50,000 tons of ultra pure H 2 O 11200(inner)+1800(outer) 50cm PMT’s Originally for proton decay experiment Accident in Nov. 2001, destroyed 7000 PMT’s Virtually all PMT’s below the surface of the water Dec resumed data taking

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 6 Atmospheric Neutrino Oscillations

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 7 Super-K Atmospheric Neutrino Results

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 8 Super-K Event Displays Stopping  33

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 9 Other Experimental Results Soudan 2 experiment MACRO experiment

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 10 Accelerator Based Experiments Mostly  from accelerators Long and Short baseline experiments –Long baseline: Detectors located far away from the source, assisted by a similar detector at a very short distance (eg. MINOS: 730km, K2K: 250km, etc) Compare the flux measured in the near detector with that in the far detector, taking into account angular dispersion –Short baseline: Detectors located at a close distance to the source Need to know beam flux well –Better if only one neutrino species are contained in the beam –Neutrinos from reactors are good candidates

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 11 Long Baseline Experiment Concept (K2K)

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 12 Different Neutrino Oscillation Strategies

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 13 Exclusion Plots  e appearance e appearance  disappearance

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 14 Long Baseline Experiments Baseline length over a few hundred km Neutrino energies can be high Experiments and Facilities –Fermilab (to Soudan Underground Facility): MINOS: Main Injector Neutrino Oscillation Search (L=730km) Nova: Off axis neutrino appearance experiment (ν μ → νe νe ) New Neutrino Oscillation Experiment at Soudan (Emulsion+iron)  Tau appearance –BNL: A proposal to shoot neutrinos to WIPP or Homestake

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 15 MINOS (Main Injector Neutrino Oscillation Search) Receives beam from NuMI (Neutrino at Main Injector) facility Located in the Soudan mine in Minnesota, 800m underground Detector consists of iron and scintillation counters, weighing a total of 5400 tons 9000 neutrino events/year expected

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 16 Long Baseline Experiment Cont’d CERN (CNGS, CERN Neutrinos to Grand Sasso): –Baseline length, L=730km –ICANOE (Ring Imaging Cerenkov Detector) –ICARUS (LAr Cerenkov detector) –OPERA (    ): Lead+Emulsion, start taking data in Aug –NOE (Neutrino Oscillation Experiment) Japan: –K2K: KEK to Kamioka Mine (L=250km) –T2K: J-PARC at Tokai to Kamioka (L=295km)

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 17 Chooz Nuclear reactor Long Base Line experiment Look for neutrino oscillation from the disappearance in The detector used Cerenkov light in liquid scintillator (mineral oil) The experiment is completed The final paper published in 1999 Will continue with mixing angle measurement experiment at Double-Chooz

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 18 KamLAND – Kamioka Liquid scintillator Anti - Neutrino Detector Reactor and solar neutrino long baseline experiment Located in the old Kamiokande detector cavern 1000m underground 1000 ton liquid scintillator detector w/ good detection. The experiment is completed Taking data

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 19 K2K – KEK to Kamioka Send neutrino beam from KEK’s proton synchrotron to Super-Kamiokande detector What are they looking for? –  disappearance – e appearance K2K-II started data taking in Jan Based line length: 250km Compare measured flux at the near detector with that measured at the far detector Crucial to know the beam flux 250km

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 20 Latest Oscillation Results From K2K and MINOS

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 21 Useful Links for Neutrinos Oscillations General summary: htmlhttp:// html

Monday, Feb. 19, 2007PHYS 5326, Spring 2007 Jae Yu 22 Homework Assignments Complete the derivation of the probability for  of energy E to oscillate to e at the distance L away from the source of . Draw the oscillation probability distributions as a function of –Distance L for a fixed neutrino beam energy E (=5, 50, 150 GeV) –E for a detector at a distance L (=1.5, 735, 2200km) away from the source Due Wednesday, Feb. 21