Kπ Scattering Study with · 2018-02-14 · 14/02/18 9 Strange Meson Spectroscopy Hadron...
Transcript of Kπ Scattering Study with · 2018-02-14 · 14/02/18 9 Strange Meson Spectroscopy Hadron...
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14/02/18 1
Kπ Scattering Study withK
L Beam Factory and GlueX
Marouen BaalouchPion-Kaon Interactions Workshop,
February 14-15, 2018
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214/02/18
Outline
I. Introduction and Motivation
Test of ChPT Strange Meson SpectroscopyStandard Model Test
II. Kπ Hadroproduction in KL Facility
III. Kπ Photoproduction in GlueX
IV. Conclusion
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314/02/18
Introduction and Motivation
Kπ Scattering Study
Test of ChPT
Strange MesonSpectroscopy
Standard Model Test and New Physics
KL p (Kπ)
J X
X: p, n, Δ++
K*(892) production at 3.9 GeV with charged kaon beam: σ = 575 ± 19 μb.Phys. Rev. D 4, 2583
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414/02/18
Test of ChPT
Kπ Scattering Study
Test of ChPT
Strange MesonSpectroscopy
Standard Model Test and New Physics
KL p (Kπ)
J X
X: p, n, Δ++
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514/02/18
Test of ChPT
In a limited kinematical region of the non perturbative QCD regime, it is possible to use an effective Lagrangian where π, η and K (Goldstone Bosons) are the fundamental degrees of freedom.
ChPT: dynamics of π, η and K ({ππ}, {πη}, {πK}) [Phys. Rev. 183 (1969) 1261, …].
ππ interaction πη interaction πK interaction
Scattering Study at Low Energy
Intensively studied Several studies have been made & other studies ongoing (GlueX, ...)
The main studies have been made performed in
the 70s and 80s.
Experiments (At Low Energy)
CLAS, MAMI, CERN, PLUTO, HERA, GlueX ...
CLAS, MAMI, CERN, PLUTO, GlueX ...
CERN 70-80 (e.g. WA7, ... ), SLAC (LASS) , CLAS, COMPASS, ...
Experimental/Phenomenological comparison
SU(2) ChPT very successful
less successful Poor agreement w/ ChPT SU(3)
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614/02/18
Test of ChPT
Buettiker, Descotes-Genon, Moussallam’04
ChPT ChPT
Data with charged Kaon-production (LASS):
More details wit Bachir Moussalam’s talk
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714/02/18
Test of ChPT
τ →K π ν τ
Data from Belle
ChPT
Boito, Escribano & Jamin’10 (Fit)
Require more data
More details wit Denis Epifanov’s talk
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814/02/18
Hadron Spectroscopy
Kπ Scattering Study
Test of ChPT
Strange MesonSpectroscopy
Standard Model Test and New Physics
KL p (Kπ)
J X
X: p, n, Δ++
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914/02/18
Strange Meson Spectroscopy
Hadron Spectroscopy plays an important to understand QCD in the non-perturbative domain:
Quantitative understanding of quark and gluon confinement
Determination of resonance and their nature.
Validate Lattice QCD prediction.
Kπ scattering amplitude:
S-wave: K(800), K0
*(1430), ….
P-wave: K*(892), K*(1680), ….
D-wave: K2
*(1430), ….
KL Facility can improve the feature of the K* mesons with low mass:
S-wave: search for K(800) state, study the K0*(1430).
P-wave: mass/width difference between hadroproduction and meson decays.
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1014/02/18
S-wave: K(800) (Kappa)
The indications on the presence of Kappa resonance have been reported based on the data of the E791 and BES collaborations.
The results of from Roy-Steiner dispersive representation [ref] not in agreement with low energy experimental data.
The confirmation of this pole in the amplitude for elastic πK scattering requires more data at low energy.
S. Descotes-Genon and B. Moussallam’06
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1114/02/18
S-wave: K*0(1403)
K*0(1403) PDG: mass = 1425 ± 50, width = 270 ± 80.
Recently, the Kπ S-wave amplitude extracted from ηc→KKπ found to be very
different with respect to the amplitude measured by LASS and E791.
LASS (a,c) { Kp→Kπp} and E791(b,d) { D→KKπ }.
BaBar {ηc→KKπ }.
More details wit Antmo Palano’s talk
Phys. Rev. D 93, 012005
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1214/02/18
P-wave: K*(892)
τ →K π ν τ
Data from Belle
Boito, Escribano & Jamin’10 (Fit)
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1314/02/18
P-wave: K*(892)mass width
(Kπ)+ n
KL p (Kπ)0 p
(Kπ)- Δ++
mK *(892)
0−mK *(892)
+-=6.7±1.2 MeV
MeV
/c2
MeV
/c2
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1414/02/18
Strange Meson Spectroscopy (Kp → Kπp, Kππp, KΦp, Λp̄X)
K
K(800) : Needs confirmation
K*(892)
K1(1270)
K1(1400)
K*(1410)
K0*(1430)
K2*(1430)
K(1460) : Observed in Kππ partial-wave analysis
K2(1580) : Seen in PWA of the Kππ system, need
confirmation
K(1630) : Seen as a narrow peak, compatible with the experimental resolution, in the invariant mass of the Kππ system produced in π-p interaction at high t.
K1(1650): reported in PWA in 1600- 1900 of m
Kππ
K*(1680)
K2(1770)
K3*(1780)
K2*(1820)
K(1830): Seen in PWA in KΦ. Needs confirmation
K0*(1950): Seen in PWA of Kπ (LASS). Needs
confirmation.
K0*(1980): Needs confirmation
K*(2045)
K2(2250): reported in 2150 – 2260 in Λp
K2*(2320): Seen in JP=3+ wave on antyhyperon-
nucleon system. Needs confirmation
K5*(2380): Needs confirmation.
K4(2500): Needs confirmation.
K(3100): Narrow peak observed in (Λp̄+ pions and c.c.). If due to strong decays, this state has exotic quantum numbers (B=0,Q=+1,S=−1). Needs confirmation.
More details wit Alessandra Filippi’s talk
More details wit Boris Grube’s talk
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1514/02/18
SM Test and New Physics
Kπ Scattering Study
Test of ChPT
Strange MesonSpectroscopy
Standard Model Test and New Physics
KL p (Kπ)
J X
X: p, n, Δ++
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1614/02/18
SM Test and New Physics
The determination of the CKM matrix elements Vus
is mainly performed using τ or Kaon decays:
The strangeness changing scalar f0(t) and vector f
+(t) form factor in the low
energy region can be obtained from Lattice QCD, or from the study of the Kπ scattering (dispersion relation) [V. Bernard et al., PRD 80 (2009)].
H(t) and G(t) evaluated from Kπ scattering data and given as polynomials.
Γ(K →π l ν )∝N|V us|2|f +
K π(0)|
2 I Kl , t=(pK−pπ )
2 ,
~f +(t )=exp[
t
mπ
2 (Λ+−H (t ))]
~f 0(t )=exp[
t
mK2−mπ
2 (ln (C )−G(t ))]
~f +(t )=exp[
t
mπ
2 (Λ+−H (t ))]~f +(t )=exp[
t
mπ
2 (Λ+−H (t ))]
I K=∫dt1
mK8 λ
3 /2 F (~f +(t ) ,
~f 0(t )) .
More details wit Michael Doering’s talk
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1714/02/18
SM Test and NewPhysics
f+(0)V
usV
usTest of unitarity: |V
ud|2
+ |V
us|2
+ |V
ub|2 = 1 + Δ
CKM
β decayK
l3 or τ
decays B decays(negligible)
Deviation fromSM (New Physics)
Vud
= 0.97416(21)V
us = 0.2248(7)
ΔCKM
= −0.0005(5)
Ref: FlaviaNet KaonWG 2010
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1814/02/18
SM Test and NewPhysics
CP violation is mainly studied using B, D and K decays.
Several decay include Kπ interaction in the final state.
Most of the analyses, specially with three-body decay, use a model dependent analysis (isobar model, K-matrix, …) to describe the data, e.g. B→ (D → K
sππ) K
s, B→K
sππ, D
s→ K
sππ …
The modeling of the S-wave Kπ components are not well established, and can be the main source of systematics, which will affect the accuracy of the fundamental parameter measurements.
BABAR-PUB-14/011, B+→Ksπ+π0
K*(1430):Lesniac Model?LASS Model?RBW?...
More details wit Alessandro Piloni’s talk
More details wit Rafael Silva Coutnho’s talk
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1914/02/18
SM Test and NewPhysics
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2014/02/18
Kπ hadroproduction
Kπ Scattering Study
Test of ChPT
Strange MesonSpectroscopy
Standard Model Test and New Physics
KL p (Kπ)
J X
X: p, n, Δ++
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2114/02/18
Kπ hadroproduction
The Kπ hadroproduction has been studied in LASS with charged Kaon beam. They parametrized the Kπ production mechanism using a model consisting of exchange degenerate Regge poles together with non-evasive “cut” contributions (P. Estabrooks et al. Nuclear Physics B133 (1978) 490-524 ).
The LASS parametrization of the naturality amplitude L±λ
for the Kπ production:
q: center-of-mass momentum, L: angular momentum,
λ: t-channel helicity , by natural (+) and unnatural (-) parity exchange.
L0=√−t
mπ
2−t
GK π
L(mK π , t ) ,
L1-=√ 1
2L(L+1)GK π
L(mK π , t ) γc(mK π)exp(bc(mK π)(t−mπ
2)) ,
L1+=√ 1
2L(L+1)GK π
L(mK π , t )[ γc(mK π)exp(bc(mK π)(t−mπ
2))−2 i γa(mK π)exp(ba(mK π)|t '|(t−mπ
2))] ,
Lλ
+-=0, λ⩾2 .
GK π
L(mK π , t )=N
mK π
√qaL(mK π)exp (bL(mK π)(t−mπ
2)) , aL
I=√(2 L+1)ϵ
I sin δLI eδ L
I
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2214/02/18
Kπ hadroproduction
Assuming similar to theKπ production mechanismwith charged kaon beam.
Kπ Production (Estabrook Model)
Only P-Wave (K*(892))
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2314/02/18
Kπ Hadro-Production
Kπ Scattering Study
Test of ChPT
Strange MesonSpectroscopy
Standard Model Test and New Physics
KL p (Kπ)
J X
X: p, n, Δ++
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2414/02/18
GlueX Detector
Acceptance θ = 1º-120º
Charged particles: drift chambers σ
p /p ~ 1-3%
Photon: electromagnetic calorimeters σ
E /E = 6% /√E 2%
Timing: Start Counter, time of flight
PID: All identifiable particle (dE/dx, E/p, ∆t, θ
c)
6⊕6
DIRC
LH2 target Barrel Calorimeter
Central Drift Chamber
Forward Drift Chamber
Time of Flight
Forward Calorimeter
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2514/02/18
Kπ Hadro-Production in GlueX
Real data (2017)
Real data (2017)
CDC
TOF
GlueX particle identification performance
KL p K*(892){ K+π -} p
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2614/02/18
Kπ Hadro-Production in GlueX
DIRC (simulation)
GlueX particle identification performance
KL p K*(892){ K+π -} p
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2714/02/18
Kπ Photo-Production in GlueX
Kπ can be produced with photon beams:
Possible Kπ photo-production mechanism:
t-channel: K*, K, κ exchanges.
s-channel: N, Δ diagrams.
u-channel: Λ, Σ, Σ* diagrams.
Phys. Rev. C 74, 015208
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2814/02/18
Kπ photoproduction in GlueX
K*(892)0
γ p → (Kπ)J0 Σ+(→pπ0) (GlueX Spring 2017 data)
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2914/02/18
Kπ photoproduction in GlueX
K*(892)0γ p → (Kπ)J0 Σ+(→pπ0) (GlueX Spring 2017 data)
background
subtraction
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3014/02/18
Kπ photoproduction in GlueX
γ p → (Kπ)J+ Λ0(→pπ-) (GlueX Spring 2017 data)
background
subtraction
K*(892)+
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3114/02/18
Conclusion
The study of the Kπ scattering is very important for:
Testing the Chiral perturbation theory at low energy.
The determination of the strange meson state parameters.
The determination of the strangeness changing form factors.
Describing the Kπ interaction in the final state of heavy meson decays used to test CP violation.
….
The proposed KL Facility can improve the Kπ scattering study by increasing
significantly the statistics of Kπ production with low energy.
The data collected by GlueX looks promising to study the Kπ interaction.
The search for the scalar κ meson can be made by studying the photoproduction of K* in GlueX.
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3214/02/18
Appendix
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3314/02/18
ChPT