Overview and Status of Measurements of F 3π at COMPASS

Similar documents
arxiv: v2 [hep-ex] 12 Feb 2014

Tests of Chiral Perturbation Theory in Primakoff Reactions at COMPASS

Hadron Spectrospopy & Primakoff Reactions at COMPASS

Hadron Spectroscopy at COMPASS

Physics with Hadron Beams at COMPASS

Experimental Program of the Future COMPASS-II Experiment at CERN

Spectroscopy Results from COMPASS. Jan Friedrich. Physik-Department, TU München on behalf of the COMPASS collaboration

Recent Results on Spectroscopy from COMPASS

The π 0 Lifetime Experiment and Future Plans at JLab

Study of Transitions and Decays of Bottomonia at Belle

Part II Particle and Nuclear Physics Examples Sheet 1

arxiv: v1 [hep-ex] 31 Dec 2014

MULTI-CHANNEL MEASUREMENTS OF LIGHT VECTOR MESONS AT PHENIX

Pion Polarizability Status Report (2017)

Hadron spectroscopy in photo- and hadroproduction at COMPASS p. 1/13

Baryon Spectroscopy in COMPASS p p p f π + π p s p p p f K + K p s. Alex Austregesilo for the COMPASS Collaboration

The π 0 Lifetime: Experimental Probe of. Dustin E. McNulty MIT/UMass for the PrimEx Collaboration April 16, 2008

Recent results and perspectives on pseudo-scalar mesons and form factors at BES III

Analysis of diffractive dissociation of exclusive. in the high energetic hadron beam of the COMPASS-experiment

Neutrino-Nucleus Scattering at MINERvA

Charm and Beauty Structure of the proton

Status / Hadron Spectroscopy at COMPASS

The achievements of the CERN proton antiproton collider

STUDY OF D AND D PRODUCTION IN B AND C JETS, WITH THE DELPHI DETECTOR C. BOURDARIOS

Sven Schumann. DPG Spring Meeting

Monte-Carlo simulations for Drell-Yan in COMPASS

Light-Meson Spectroscopy at Jefferson Lab

BABAR Results on Hadronic Cross Sections with Initial State Radiation (ISR)

Study on the Two-Photon Transition from ψ(2s) to J/ψ at BESIII

The PANDA experiment at FAIR

Nicolas Berger SLAC, Menlo Park, California, U.S.A.

CLEO Results From Υ Decays

Discovery of charged bottomonium-like Z b states at Belle

NA62: Ultra-Rare Kaon Decays

Quarkonium LHCb

Measurements with Polarized Hadrons

High-t Meson Photoproduction: Experimental Capabilities

Gamma-Gamma Physics and Transition Form Factors with KLOE/KLOE-2

Hadron structure with photon and antiproton induced reactions - QCD in the non-perturbative range -

Vector meson photoproduction in ultra-peripheral p-pb collisions measured using the ALICE detector

HERMES at HERA: Quark-Gluon Spin Structure of the Nucleon

R at CLEO Surik Mehrabyan University of Puerto Rico at Mayaguez on behalf of CLEO collaboration Heavy Quarkonium 2006 June BNL

Study of e + e annihilation to hadrons at low energies at BABAR

Pion Form Factor Measurement at BESIII

The Jlab 12 GeV Upgrade

CHAPTER 2 ELECTRON-PROTON COLLISION

Analysis of a Multi-Muon Signal at Collider and Fixed-Target Experiments

Optimizing Selection and Sensitivity Results for VV->lvqq, 6.5 pb -1, 13 TeV Data

Study of transverse momentum dependent distributions from polarised Drell-Yan at COMPASS

Wolfgang Gradl. on behalf of the BABAR collaboration. Tau 2016, Beijing 23 rd September 2016

The PRIMEX Experiment: A Fundamental Test of the Chiral Anomaly Prediction in QCD. Erik Minges April 23 rd, 2010

Spectroscopy and Decay results from CDF

Effective Field Theory for Nuclear Physics! Akshay Vaghani! Mississippi State University!

PrimEx Experiments and the Prospects of Rare η Decays at GlueX

PoS(CD12)117. Precision Measurement of η γγ Decay Width via the Primakoff Effect. Liping Gan

Hadronic (ns) decays. VI International Workshop on Heavy Quarkonia, Elisabetta Prencipe On behalf of the BaBar collaboration

Hall-D Update. Eric Pooser. Joint Hall A/C Summer Collaboration Meeting 07/18/2015

Recent results at the -meson region from the CMD-3 detector at the VEPP-2000 collider

Recent results from the STAR experiment on Vector Meson production in ultra peripheral AuAu collisions at RHIC.

Study of Bs J/ψη and Bs J/ψη' decays at LHCb

The chiral anomaly and the eta-prime in vacuum and at low temperatures

Photo-production of vector mesons in 2.76 TeV ultra-peripheral Pb+Pb collisions at ALICE. Daniel Tapia Takaki. On behalf of the ALICE Collaboration

Helicity: Experimental Status. Matthias Grosse Perdekamp, University of Illinois

Hadron Spectroscopy at LHCb. Hadron Spectroscopy. Results from LHCb. Lucio Anderlini (INFN Firenze) on behalf of the LHCb Collaboration

e e with ISR and the Rb Scan at BaBar

Central Meson Production in ALICE

Measuring Form Factors and Structure Functions With CLAS

D Hadronic Branching Fractions and DD Cross Section at ψ (3770) from CLEO c

Theory English (Official)

Monte Carlo Simulations for PANDA

Status report on parity violation in the (1232) resonance

PoS(EPS-HEP 2009)048. QCD tests at NA48/2 experiment. Gianluca Lamanna Scuola Normale Superiore & INFN Pisa - Italy

Heavy Hadron Production and Spectroscopy at ATLAS

Overview of N* Physics

The Compact Muon Solenoid Experiment. Conference Report. Mailing address: CMS CERN, CH-1211 GENEVA 23, Switzerland. Rare B decays at CMS

Atlas Status and Perspectives

Muon commissioning and Exclusive B production at CMS with the first LHC data

Measurement of the e + e - π 0 γ cross section at SND

Latest KLOE-2 results on hadron physics

Hadron Physics with Real and Virtual Photons at JLab

M.Battaglieri Istituto Nazionale di Fisica Nucleare Genova - Italy. A Forward Photon Tagging Facility for CLAS12

Particle Detectors. How to See the Invisible

Invited Contribution to XXXVII th Recontres de Moriond Electroweak Conference. March 2002, Les Arcs 1800, France.

International Workshop on Heavy Quarkonium Oct. 2007, DESY Hamburg. Prospects for Panda. Charmonium Spectroscopy

The Jefferson Lab 12 GeV Program

Discovery of the W and Z 0 Bosons

SECOND PUBLIC EXAMINATION. Honour School of Physics Part C: 4 Year Course. Honour School of Physics and Philosophy Part C C4: PARTICLE PHYSICS

Precision measurement of kaon radiative decays in NA48/2

Deeply Virtual Compton Scattering off 4. He: New results and future perspectives

Heavy-flavor production in pp and Pb Pb collisions at LHC with ALICE

Prospective of gamma hadron correlation. study in CMS experiment

Discovery of Pions and Kaons in Cosmic Rays in 1947

New Limits on Heavy Neutrino from NA62

Recent results on exclusive hadronic cross sections measurements with the BABAR detector

A Measurement of the Induced polarization of electro-produced Λ(1116) with CLAS

Vol. 5 (2012) Acta Physica Polonica B Proceedings Supplement No 4 PANDA AT FAIR. Tord Johansson. representing the PANDA Collaboration

Recent results from SND detector

Results from B-Physics (LHCb, BELLE)

Experimental results on nucleon structure Lecture I. National Nuclear Physics Summer School 2013

A search for heavy and long-lived staus in the LHCb detector at s = 7 and 8 TeV

Transcription:

g-2 workshop Mainz: Overview and Status of Measurements of F 3π at COMPASS D. Steffen on behalf of the COMPASS collaboration 19.06.2018 sponsored by:

2 Dominik Steffen g-2 workshop Mainz 19.06.2018 Contents 1 Introduction Overview of the COMPASS experiment ChPT and Primakoff reactions 2 The Chiral Anomaly F 3π - Theoretical Background 3 F 3π Measurement at COMPASS Primakoff Measurements at COMPASS Event Selection and Background Subtraction Normalization to the Pion Flux 4 Conclusion

COMPASS - Overview COmmon Muon Proton Apparatus for Structure and Spectroscopy Fixed target experiment at SPS accelerator at CERN (M2 beamline) High intensity beams: max. 4 10 7 muons s ; 2 10 7 hadrons s Various physics programs 2 Primakoff runs (2009 and 2012) Setup in 2009 3 Dominik Steffen g-2 workshop Mainz 19.06.2018

COMPASS - Overview spectrometer setup: Length: 60m Two-stage magnetic spectrometer Each stage: Tracking, dipole magnet, calorimeters Fixed target experiment at SPS accelerator at CERN (M2 beamline) High intensity beams: max. 4 10 7 muons s ; 2 10 7 hadrons s Various physics programs 2 Primakoff runs (2009 and 2012) Setup in 2009 3 Dominik Steffen g-2 workshop Mainz 19.06.2018

4 Dominik Steffen g-2 workshop Mainz 19.06.2018 Strong Interaction in the Standard Model At high energies (small distances) α s 1 QCD processes calculable via perturbation expansion in α s At low energies (long distances) α s = O(1) perturbation expansion in α s not applicable Alternatives for theoretical predictions: Numerical simulation of QCD (lattice QCD) Effective Field Theories

5 Dominik Steffen g-2 workshop Mainz 19.06.2018 Chiral Perturbation Theory (ChPT) ChPT is the low-energy approximation of QCD Fundamental degrees of freedom = hadrons Model-independent approach to describe meson-meson, meson-baryon, and meson-photon interactions ChPT provides predictions can be tested by experiments Goal of COMPASS experiment Test ChPT predictions for pion-photon reactions π γ X with various final states X π + γ Compton reaction, pion polarisabilities π + γ ( ) π + π 0 single-pion production, chiral anomaly π + π 0 + π 0 double-pion prod., chiral tree & loop

6 Dominik Steffen g-2 workshop Mainz 19.06.2018 Primakoff Reaction - Overview First proposed by H. Primakoff to study π 0 lifetime via γγ π 0 γγ particle-photon collisions with the photon provided by the strong Coulomb field of a nucleus. Weizsäcker and Williams: Coulomb field of relativistic charge flux of quasi-real photons dσ Z 2 α ds dq 2 = dφ n π(s m 2 π ) F 2 (Q 2 ) Q2 Q 2 min Q 4 dσ πγ X dφ n

7 Dominik Steffen g-2 workshop Mainz 19.06.2018 Contents 1 Introduction Overview of the COMPASS experiment ChPT and Primakoff reactions 2 The Chiral Anomaly F 3π - Theoretical Background 3 F 3π Measurement at COMPASS Primakoff Measurements at COMPASS Event Selection and Background Subtraction Normalization to the Pion Flux 4 Conclusion

Chiral Anomaly from π + γ ( ) π π 0 J.Friedrich, CERN-THESIS-2012-333 F 3π = coupling constant for γ 3π Leading Order ChPT: F 3π = 9.78(05)GeV 3 (verified up to 10% level) Determines cross section in Primakoff π Ni π π 0 Ni reaction low-mass tail in 2π invariant mass spectrum not driven by any resonance but by chiral anomaly Problem: Dominant contribution of ρ(770) π π 0 affects also low masses 8 Dominik Steffen g-2 workshop Mainz 19.06.2018

F 3π in π π 0 -Invariant-Mass Spectrum Problem: Dominant contribution of ρ(770) π π 0 affects also low masses Solution: Extension of ChPT amplitude using dispersion relations Inclusion of ρ(770)-resonance into amplitude Amplitude valid up to 1.2 GeV/c 2 : σ(s) = (s 4M 2 π) 3/2 (s M 2 π) 1024π s 1 1 dz(1 z 2 ) F(s, t, u) 2 Comparison with theoretical value at leading order of chiral expansion: Sakkas, Hoferichter, Kubis, PRD 86 (2012) 116009 F 3π = e N C 12π 2 Fπ 3 = 9.78(05)GeV 3 9 Dominik Steffen g-2 workshop Mainz 19.06.2018

10 Dominik Steffen g-2 workshop Mainz 19.06.2018 Contents 1 Introduction Overview of the COMPASS experiment ChPT and Primakoff reactions 2 The Chiral Anomaly F 3π - Theoretical Background 3 F 3π Measurement at COMPASS Primakoff Measurements at COMPASS Event Selection and Background Subtraction Normalization to the Pion Flux 4 Conclusion

11 Dominik Steffen g-2 workshop Mainz 19.06.2018 Target Choice Primakoff cross-section: Z 2 large Z Very high Z (e.g. Pb): large corrections from 2γ processes and from screening Optimum choice: medium heavy Ni target Artistic depiction of π + Ni π + γ + Ni via the Primakoff process

12 Dominik Steffen g-2 workshop Mainz 19.06.2018 Measurement Principle 190 GeV negative hadron beam: 96.8% π, 2.4% K, 0.8% p beam particle identification by Cherenkov detectors 4 mm Ni target disk ( 25%R.L.) Measure scattered π and produced photons (number depends on final state) Select exclusive events at lowest momentum transfers Small scattering angles require high resolution Spatial resolution of tracking 10 µm Angular resolution of ECAL 30 µrad

13 Dominik Steffen g-2 workshop Mainz 19.06.2018 Measurement of F 3π at COMPASS Weizsäcker-Williams factorization (equivalent-photon approximation) dσ Z 2 α ds dq 2 = dφ n π(s m 2 π ) F 2 (Q 2 ) Q2 Q 2 min Q 4 dσ πγ X dφ n 4-momentum transfer distribution smeared due to interaction with matter and limited detector resolution Prominent peak at low q (despite resolution effect) Primakoff dominant production mechanism of π π 0 at low q

Background Estimate K decay into π π 0, e ν e π 0, µ ν µ π 0 K decay into π π 0 π 0 π + Ni π + π 0 + π 0 + Ni Distribution for the invariant mass of the 2π final state and the estimated background 14 Dominik Steffen g-2 workshop Mainz 19.06.2018

Luminosity Determination Cross-section calculation needs integrated luminosity L π N π = L π σ ɛ Luminosity determination via free kaon decays: Kaon lifetime known with high accuracy Kaon fraction in M2 beam known with 5% accuracy From number of kaon decays + acceptance corrections (determined from MC simulation) integrated number of pions Using K π π 0 for 2009 data: Using K π π 0 π 0 for 2009 data: Using K π π π + for 2004 data no issue found, employed for several analysis 6.0 ± 0.7 nb 1 4.09 ± 0.27 nb 1 15 Dominik Steffen g-2 workshop Mainz 19.06.2018

16 Dominik Steffen g-2 workshop Mainz 19.06.2018 Invariant Mass Distribution Final normalized and acceptance-corrected invariant mass distribution with subtracted background

Fit results Fit of theoretical model in good agreement with data Statistical uncertainty is O(1%) Absolute scale (normalization to pion flux) not yet determined F(s, t, u) = C (1) 2 F (1) 2 (s) + C(2) 2 F (2) 2 (s) 2 fit parameters Sakkas, Hoferichter, Kubis, PRD 86 (2012) 116009 17 Dominik Steffen g-2 workshop Mainz 19.06.2018

Fit results Fit of theoretical model in good agreement with data Statistical uncertainty is O(1%) Absolute scale (normalization to pion flux) not yet determined Sakkas, Hoferichter, Kubis, PRD 86 (2012) 116009 ρ(770) included in theoretical model Can calculate radiative coupling ρ(770) π γ from ρ(770) yield Contributes to hadronic vacuum polarization terms in calculations of g 2 of e and µ 17 Dominik Steffen g-2 workshop Mainz 19.06.2018

ρ radiative width from Capraro et al. π π 0 invariant mass distributions Data obtained from measurement in 1987 at CERN with same measurement principles fitted with Breit-Wigner distribution: Γ(ρ(770) π γ) = 87 ± 5.6 kev Capraro et al. In: (1987) NP B288 659 Data from COMPASS experiment in 2009 fitted with cross-section equation using dispersion relations. 18 Dominik Steffen g-2 workshop Mainz 19.06.2018

19 Dominik Steffen g-2 workshop Mainz 19.06.2018 Contents 1 Introduction Overview of the COMPASS experiment ChPT and Primakoff reactions 2 The Chiral Anomaly F 3π - Theoretical Background 3 F 3π Measurement at COMPASS Primakoff Measurements at COMPASS Event Selection and Background Subtraction Normalization to the Pion Flux 4 Conclusion

Conclusion COMPASS has acquired large Primakoff data set Measurements from channel π + γ ( ) π π 0 : Chiral anomaly γ 3π Radiative width of light-quark isovector mesons (ρ(770) π γ) Data from run 2009 give consistent picture: Fit in good agreement with data Normalizing to radiative width of ρ(770) yields value for F 3π in agreement with theoretical result 4x larger data set to come from 2012 data Possibility to extend analysis to measure radiative couplings of excited ρ states 20 Dominik Steffen g-2 workshop Mainz 19.06.2018

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback