Main Injector Particle Production Experiment

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Main Injector Particle Production Experiment Andre Lebedev for the MIPP Collaboration: Colorado, Fermilab, Harvard, IIT, Iowa, Indiana, Livermore, Michigan, South Carolina, Virginia XLII Rencontres de Moriond March 2007

Overview MIPP (FNAL-E907) is a large acceptance spectrometer to measure hadronic particle production TPC and wire chambers to measure track parameters TPC de/dx, ToF, differential Cherenkov and ring imaging Cherenkov give /K/p separation up to 100 GeV/c Primary 120 GeV/c beam from the Main Injector Secondary beam of tagged, K, p from 5 to 85 GeV/c Collected 20M triggers on cryogenic H2, Be, C, Bi, U, and NuMI target Andre Lebedev MIPP Moriond EW 2007 2

Spectrometer Geometry TPC PID: <1 GeV/c Ckov PID: 3 17 GeV/c ToF PID: < 3 GeV/c JGG Magnet Bydl=1Tm Rosie Magnet Bydl= 1Tm RICH PID: >17 GeV/c Drift Chambers EM Calorimeter Proportional Chambers Andre Lebedev MIPP Moriond EW 2007 Hadronic Calorimeter 3

MIPP Physics Hadronic production cross section measurements Non-perturbative QCD Improve hadron shower models in Fluka, Geant4, MARS Particle fragmentation scaling laws can be probed in 36 reactions Service measurements Proton radiography, stockpile stewardship Particle flux from NuMI target Reduce uncertainty of MINOS neutrino flux prediction Andre Lebedev MIPP Moriond EW 2007 4

Reconstructed Proton-Carbon at 120 GeV/c Event TPC Y TOF Wall TPC X Global X Global Y RICH Wire Chambers EM Cal Hadron Cal

Spectrometer Calibration Chamber alignment done for every run Helped to find bugs in geometry description and refine magnetic field maps TPC electron drift velocity measured for every run Strong correlation with water vapor contamination Andre Lebedev MIPP Moriond EW 2007 6

Calibration (cont.) Global tracking is used to Align the RICH Align EM calorimeter Compute drift attenuation in the TPC Compute ToF cable delays Calibrate Ckov light output Calibrate RICH index of refraction EM Cal Alignment Calibration to be completed within 2 weeks Andre Lebedev MIPP Moriond EW 2007 7

Event Reconstruction Summary Track reconstruction Form hits in TPC, find tracks and fit to helices Match TPC tracks to chamber hits, fit using track template method Vertex reconstruction Find vertices using Deterministic Annealing Filter (DAF) Make vertex constrained fits using track templates Particle identification Compute TPC de/dx, track ToF, Cherenkov likelihood Match tracks to RICH rings and compute likelihoods Match tracks to calorimeter showers Andre Lebedev MIPP Moriond EW 2007 8

TPC Hit Reconstruction JGG field is non-uniform 0.5 B z / B y Enormous effect on electron drift in Ar/CH4 Previous experiments applied corrections based on steady state solution to linear model m d v dt B z / B y 0.1 1 =e E e v B v TPC Drift Volume Boundary Andre Lebedev MIPP Moriond EW 2007 0.1 B z / B y 0.5 9

TPC Hit (cont.) X (cm) Raw Data, 120 GeV/c Track Linear model X (cm) Y (cm) Magboltz Simulation Y (cm) Andre Lebedev MIPP Moriond EW 2007 Linear model fails to describe electron drift We use Magboltz simulation to map out drift velocity components as a function of v0, B-field strength, and angle between E and B-fields Good agreement with TPC data 10

Particle ID status TPC de/dx calibration is in progress, TPC de/dx Results to-date are promising TOF cable delays to be determined soon Cherenkov light calibration is largely done RICH calibration and likelihood calculation are nearly complete Andre Lebedev MIPP Moriond EW 2007 11

MIPP Analyses In Progress These projects are under way, expect results in 2-3 months Target fragmentation multiplicities HBT effect Soft pion production cross sections /K production ratio on carbon at 120 GeV/c /K production ratio on NuMI target K mass (dedicated 17M beam /K/p triggers) + Many more projects available: new collaborators are welcome! Andre Lebedev MIPP Moriond EW 2007 12

Upgrade Proposal Current data rate limitation is ~30 Hz due to TPC electronics Upgrade electronics to get 3 khz data rate TPC with ALICE ALTRO chips prototype boards in the works New electronics for drift chambers and proportional chambers New silicon pixel interaction trigger Add recoil detector New JGG coils (better field uniformity) to be delivered in May Improve beamline design to get 1-85 GeV/c secondary momenta Strong support from FNAL Andre Lebedev MIPP Moriond EW 2007 13

Upgrade Physics More statistics for existing data sets Other neutrino experiment targets NOvA, T2K,... Production cross sections on liquid N2 Atmospheric neutrino and cosmic ray experiments Variety of nuclear targets to get uniform coverage in A Test beam for calorimeters Minerva, ILC,... Target and beam requests by new collaborators! Andre Lebedev MIPP Moriond EW 2007 14

Summary MIPP gathered 20M triggers of hadronic interactions Unique data set that covers a range of physics topics Collaboration made a lot of progress in understanding our data and the spectrometer Data summaries to be produced shortly Expect first results from analyses in the summer Upgraded experiment can improve statistics and cover a broader range of physics topics Andre Lebedev MIPP Moriond EW 2007 15

Backup Slides Andre Lebedev MIPP Moriond EW 2007 16

Motivation for NuMI/MINOS Single-arm spectrometer data provides spotty coverage of pion production NA49 published pc at 158 GeV/c Andre Lebedev MIPP Moriond EW 2007 hep-ex/0606028 17

Secondary Beam Particle ID 2 beam Cherenkov threshold counters separate /K/p from 20 to 90 GeV/c Andre Lebedev MIPP Moriond EW 2007 N2 for momenta above 30 GeV/c C4F8O for proton at 20 GeV/c Trigger purity measured with the RICH is typically above 80% for minority particle 18

Linear Drift Model vs Magboltz Magnetic field inside the TPC varies from 3.5 to 8 kg The angle between E and B fields goes up to 50 degrees Difference in drift velocity components reaches 30% Andre Lebedev MIPP Moriond EW 2007 With 5 cm correction that's 1.5 cm! 19

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