Presentation is loading. Please wait.

Presentation is loading. Please wait.

Ff Neutrino Time of Flight measurements (with MINOS) Phil Adamson 12 th September 2012.

Published byMariah Gallagher Modified over 7 years ago

Similar presentations

Presentation on theme: "Ff Neutrino Time of Flight measurements (with MINOS) Phil Adamson 12 th September 2012."— Presentation transcript:

1 ff Neutrino Time of Flight measurements (with MINOS) Phil Adamson 12 th September 2012

2 ff Back Story IWAA 2012 - Phil Adamson 2

3 ff A neutrino beam IWAA 2012 - Phil Adamson 3 π-π- π+π+ Target Focusing Horns 2 m 675 m νμνμ νμνμ 15 m 30 m 120 GeV protons from MI Decay volume π + -> µ + ν µ Beam Absorber Absorb hadrons Muons range out in rock Neutrinos left Primary proton beam on target Produce π,K Magnetic focusing horns sign-select pions

4 ff MINOS detectors IWAA 2012 - Phil Adamson 4 1 kT Near Detector 1 km from source 5.4 kT Far Detector 735 km from source Magnetized steel/scintillator tracking calorimeters 1” steel plates 1cm scintillator (4.1cm wide strips) Functionally eqivalent Same materials Same segmentation Same mean B field (1.3 T) Many systematics cancel

5 ff Measuring neutrino velocity But you can’t ever detect the same neutrino in each place Cross section very small Neutrino consumed in detection IWAA 2012 - Phil Adamson 5 distance target ND FD Neutrino to neutrino measurement Ceramic break

6 ff MINOS Beam structure 6 1.6 µs batches separated by ~100ns Each batch has 81 bunches Bunch spacing 18.83 ns Bunch sigma ~1 ns MINOS detectors can resolve this IWAA 2012 - Phil Adamson 6 3.5 ns ~100ns 18.83ns

7 ff Measuring time Absolute time was never a very interesting number Use time of expected beam at Far Detector to suppress background events from cosmic rays Beam spill is 10 µs long, so timing only has to be good to 1 µs Relative timing between scintillator strips important for distinguishing upward & downward-going muons from atmospheric neutrinos IWAA 2012 - Phil Adamson 7 distance target ND FD Neutrino to neutrino measurement

8 ff Telling the time Divide time measurement into 2 parts Time with respect to local clock Beam structure Electronics Accuracy Quantization Detector Latency Quality of local clock Transferring time between two detector sites “Routine” for time labs Steve Jefferts, Stephen Mitchell talks TWTT over fibre (MI60 to ND, surface to ground) TWSTT GPS (PPP or Common View) IWAA 2012 - Phil Adamson 8

9 ff Old GPS System Good enough for background rejection But not for time of flight GPS has a random-but- stable offset with respect to UTC Changes with each power cycle RMS 60 ns See next talks for something better than this! IWAA 2012 - Phil Adamson 9 9 Intentional Power Cycles of GPS receiver

10 ff Detector latency Remember those “functionally identical” detectors? The electronics is completely different Also larger Far Detector has Longer wavelength-shifting fibres Longer clear readout fibres Can measure latency of each piece and sum, but then combine many uncertainties We measure latency of whole detector at once IWAA 2012 - Phil Adamson 10

11 ff Auxiliary Detector Build two identical simple, portable muon detectors 2 1m x 1m MINOS-style scintillator planes and photomultipliers Coincidence of PMT dynode signals makes muon paddle Timestamp hits against local Cs clock with BI220 Time Interval Analyser Measure large detector timing signal against local Cs clock IWAA 2012 - Phil Adamson 11 Place behind MINOS ND, track muons into AD, measure offset between time in large detector and auxiliary detector Take one apart, drive whole thing to Soudan and repeat with FD. You now have a relative latency measurement between the two detectors, which is what you need for time-of-flight

12 ff Latency measurement at FD IWAA 2012 - Phil Adamson 12

13 ff Measuring distance Talk later this morning from Virgil 3 components Surface measurement between sites Tie between surface and underground network at ND Same at FD …and don’t forget that the Earth rotates Far detector is the big challenge 2341 feet down single mineshaft Bent, not vertical Usually has fog half way up Currently ~70cm uncertainty on inertial measurement Time-of-flight requires significantly more accurate distance than oscillation measurements IWAA 2012 - Phil Adamson 13 distance target ND FD Neutrino to neutrino measurement

14 ff Summary IWAA 2012 - Phil Adamson 14 Environmental chamber on surface at Soudan maintains temperature within 1 °F

Download ppt "Ff Neutrino Time of Flight measurements (with MINOS) Phil Adamson 12 th September 2012."

Similar presentations

New Frontiers in Physics Richard Lasky – Summer 2010.

New Frontiers in Physics Richard Lasky – Summer 2010.
MINOS+ Starts April 2013 for three years April 2013-2016.

MINOS+ Starts April 2013 for three years April
MINOS sensitivity to dm2 and sin2 as a function of pots. MINOS sensitivity to theta13 as a function of pots Precision Neutrino Oscillation Physics with.

MINOS sensitivity to dm2 and sin2 as a function of pots. MINOS sensitivity to theta13 as a function of pots Precision Neutrino Oscillation Physics with.
How to Build a Neutrino Oscillations Detector - Why MINOS is like it is! Alfons Weber March 2005.

How to Build a Neutrino Oscillations Detector - Why MINOS is like it is! Alfons Weber March 2005.
An accelerator beam of muon neutrinos is manufactured at the Fermi Laboratory in Illinois, USA. The neutrino beam spectrum is sampled by two detectors:

An accelerator beam of muon neutrinos is manufactured at the Fermi Laboratory in Illinois, USA. The neutrino beam spectrum is sampled by two detectors:
Searching for Atmospheric Neutrino Oscillations at MINOS Andy Blake Cambridge University April 2004.

Searching for Atmospheric Neutrino Oscillations at MINOS Andy Blake Cambridge University April 2004.
First Observations of Separated Atmospheric  and  Events in the MINOS Detector. A. S. T. Blake* (for the MINOS collaboration) *Cavendish Laboratory,

First Observations of Separated Atmospheric  and  Events in the MINOS Detector. A. S. T. Blake* (for the MINOS collaboration) *Cavendish Laboratory,
Preliminary Ideas for a Near Detector at a Neutrino Factory Neutrino Factory Scoping Study Meeting 23 September 2005 Paul Soler University of Glasgow/RAL.

Preliminary Ideas for a Near Detector at a Neutrino Factory Neutrino Factory Scoping Study Meeting 23 September 2005 Paul Soler University of Glasgow/RAL.
The MINOS Experiment Andy Blake Cambridge University.

The MINOS Experiment Andy Blake Cambridge University.
NuMI MINOS The MINOS Far Detector Cosmic Rays and their neutrinos are being collected now. How does this work, and of what use is this data? Alec Habig,

NuMI MINOS The MINOS Far Detector Cosmic Rays and their neutrinos are being collected now. How does this work, and of what use is this data? Alec Habig,
July 19, 2003 HEP03, Aachen P. Shanahan MINOS Collaboration 1 STATUS of the MINOS Experiment Argonne Athens Brookhaven Caltech Cambridge Campinas Dubna.

July 19, 2003 HEP03, Aachen P. Shanahan MINOS Collaboration 1 STATUS of the MINOS Experiment Argonne Athens Brookhaven Caltech Cambridge Campinas Dubna.
A long baseline neutrino oscillation search - MINOS Reinhard Schwienhorst School of Physics and Astronomy University of Minnesota.

A long baseline neutrino oscillation search - MINOS Reinhard Schwienhorst School of Physics and Astronomy University of Minnesota.
NEW RESULTS FROM MINOS Patricia Vahle, for the MINOS collaboration College of William and Mary.

NEW RESULTS FROM MINOS Patricia Vahle, for the MINOS collaboration College of William and Mary.
ICHEP04, August 18, Beijing G.F. Pearce, Rutherford Appleton Laboratory 1 The Minos Experiment G.F. Pearce Rutherford Appleton Laboratory Overview NUMI.

ICHEP04, August 18, Beijing G.F. Pearce, Rutherford Appleton Laboratory 1 The Minos Experiment G.F. Pearce Rutherford Appleton Laboratory Overview NUMI.
Sampling Detectors for e Detection and Identification Adam Para, Fermilab NuFact02 Imperial College Interest de jour: what is sin 2 2  13  oscillations.

Sampling Detectors for e Detection and Identification Adam Para, Fermilab NuFact02 Imperial College Interest de jour: what is sin 2 2  13  oscillations.
NuMI NuMI Overview NBI 2002 S. Childress (FNAL) 14 March ‘02 NuMI / MINOS Overview.

NuMI NuMI Overview NBI 2002 S. Childress (FNAL) 14 March ‘02 NuMI / MINOS Overview.
HARP for MiniBooNE Linda R. Coney Columbia University DPF 2004.

HARP for MiniBooNE Linda R. Coney Columbia University DPF 2004.
Jornadas LIP 2008 – Pedro Ramalhete. 17 m hadron absorber vertex region 8 MWPCs 4 trigger hodoscopes toroidal magnet dipole magnet hadron absorber targets.

Jornadas LIP 2008 – Pedro Ramalhete. 17 m hadron absorber vertex region 8 MWPCs 4 trigger hodoscopes toroidal magnet dipole magnet hadron absorber targets.
Ff f f f “Conventional” neutrino beams: Target requirements Phil Adamson 13 th January 2012.

Ff f f f “Conventional” neutrino beams: Target requirements Phil Adamson 13 th January 2012.
Monte Carlo Comparison of RPCs and Liquid Scintillator R. Ray 5/14/04  RPCs with 1-dimensional readout (generated by RR) and liquid scintillator with.

Monte Carlo Comparison of RPCs and Liquid Scintillator R. Ray 5/14/04  RPCs with 1-dimensional readout (generated by RR) and liquid scintillator with.

Similar presentations

Ads by Google