results of nucleon resonance extraction via dynamical coupled-channels analysis from collaboration @...
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Results of Nucleon Resonance Extraction via
Dynamical Coupled-Channels Analysis from
Collaboration @ EBAC
Hiroyuki Kamano(RCNP, Osaka U.)
QNP2012, Palaiseau, France, April 16-20, 2012
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Outline
1. Background and motivation for N* spectroscopy
2. Results of nucleon resonance extraction from
Collaboration@EBAC
3. Summary and future works
Description of Dynamical Coupled-Channels (DCC) model
Results of DCC analysis (2006-2009)
Results of DCC analysis (2010-2012)
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N* spectroscopy : Physics of broad & overlapping resonances
Δ (1232)
Width: a few hundred MeV.
Resonances are highly overlapping in energy except D(1232).
Width: ~10 keV to ~10 MeV
Each resonance peak is clearly separated.
N* : 1440, 1520, 1535, 1650, 1675, 1680, ...
D : 1600, 1620, 1700, 1750, 1900, …
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N* states and PDG *s
?
?
?
?
?
Arndt, Briscoe, Strakovsky, Workman PRC 74 045205 (2006)
Most of the N*s were extracted from
Need comprehensive analysis of
channels !!
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Hadron spectrum and reaction dynamics
Various static hadron models have been proposed to calculate
hadron spectrum and form factors.
In reality, excited hadrons are “unstable” and can exist
only as resonance states in hadron reactions.
Quark models, Bag models, Dyson-Schwinger approaches, Holographic QCD,… Excited hadrons are treated as stable particles. The resulting masses are real.
What is the role of reaction dynamics in interpretingthe hadron spectrum, structures, and dynamical origins ??
“Mass” becomes complex !! “pole mass” u
u d
Constituent quark modelN*
bare state
meson cloud
“molecule-like” states
core (bare state) + meson cloud
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Objectives and goals:
Through the comprehensive analysis of world data of pN, gN, N(e,e’) reactions,
Determine N* spectrum (pole masses)
Extract N* form factors
(e.g., N-N* e.m. transition form factors)
Provide reaction mechanism information
necessary for interpreting N* spectrum,
structures and dynamical origins
Collaboration at Excited Baryon Analysis Center (EBAC) of Jefferson Lab
http://ebac-theory.jlab.org/
Spectrum, structure,…of N* states
QCD
Lattice QCDHadron Models
Analysis Based on Reaction Theory
Reaction Data
“Dynamical coupled-channels model of meson production reactions”
A. Matsuyama, T. Sato, T.-S.H. Lee Phys. Rep. 439 (2007) 193
Founded in January 2006
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Partial wave (LSJ) amplitudes of a b reaction:
Reaction channels:
Transition Potentials:
coupled-channels effect
Exchange potentials bare N* states
For details see Matsuyama, Sato, Lee, Phys. Rep. 439,193 (2007)
Z-diagrams
Dynamical coupled-channels (DCC) model for meson production reactions
Meson-Baryon Green functions
Stable channels Quasi 2-body channels
N p
D
p
D
pp
p
, r s , r s
N N
, , , ,..p r s w
N N, D
s-channel u-channel t-channel contact
Exchange potentials
Z-diagrams
Bare N* statesN*bare
Dp
N p
p
DDNp
,r s
Can be related to hadron states of the static
hadron models (quark models, DSE, etc.)
excluding meson-baryon continuum.
core
meson cloud
meson
baryon
Physical N*s will be a “mixture” of the two pictures:
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DCC analysis @ EBAC (2006-2009)
p N p N : Analyzed to construct a hadronic part of the model up to W = 2 GeVJulia-Diaz, Lee, Matsuyama, Sato, PRC76 065201 (2007)
p N h N : Analyzed to construct a hadronic part of the model up to W = 2 GeVDurand, Julia-Diaz, Lee, Saghai, Sato, PRC78 025204 (2008)
p N p p N : Fully dynamical coupled-channels calculation up to W = 2 GeVKamano, Julia-Diaz, Lee, Matsuyama, Sato, PRC79 025206 (2009)
g(*) N p N : Analyzed to construct a E.M. part of the model up to W = 1.6 GeV and Q2 = 1.5 GeV2
(photoproduction) Julia-Diaz, Lee, Matsuyama, Sato, Smith, PRC77 045205 (2008) (electroproduction) Julia-Diaz, Kamano, Lee, Matsuyama, Sato, Suzuki, PRC80 025207 (2009)
g N p p N : Fully dynamical coupled-channels calculation up to W = 1.5 GeV Kamano, Julia-Diaz, Lee, Matsuyama, Sato, PRC80 065203 (2009)
Extraction of N* pole positions & new interpretation on the dynamical origin of P11 resonancesSuzuki, Julia-Diaz, Kamano, Lee, Matsuyama, Sato, PRL104 065203 (2010)
Stability and model dependence of P11 resonance poles extracted from pi N pi N dataKamano, Nakamura, Lee, Sato, PRC81 065207 (2010)
Extraction of gN N* electromagnetic transition form factorsSuzuki, Sato, Lee, PRC79 025205 (2009); PRC82 045206 (2010)
Hadronic part
Electromagnetic part
Extraction of N* parameters
gN, pN, hN, pD, rN, sN coupled-channelscalculations were performed.
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Dynamical origin of nucleon resonances
Pole positions and dynamical origin of P11 resonances
Suzuki, Julia-Diaz, Kamano, Lee, Matsuyama, Sato, PRL104 065203 (2010)
pole A: pD unphys. sheetpole B: pD phys. sheet Two-pole nature of the Roper is found
also from completely different approaches:
Eden, Taylor, Phys. Rev. 133 B1575 (1964)
Multi-channel reactions can generate many resonance poles from a single bare state !!
For evidences in hadron and nuclear physics, see e.g., in Morgan and Pennington, PRL59 2818 (1987)
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N-N* transition form factors at resonance poles
Julia-Diaz, Kamano, Lee, Matsuyama, Sato, Suzuki PRC80 025207 (2009)Suzuki, Sato, Lee, PRC82 045206 (2010)
Real part Imaginary part
Nucleon - 1st D13 e.m. transition form factors
Coupling to meson-baryon continuum states
makes N* form factors complex !!
Fundamental nature of resonant particles (decaying states)
Extracted from analyzing the p(e,e’p)N data (~ 20000) from CLAS
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Dynamical coupled-channels (DCC) analysis
p N
gp N
p hN
gp hp
pp KL, KS
gp K+ , L KS
2006 - 2009
6 channels (gN,pN,hN,pD,rN,sN)
< 2 GeV
< 1.6 GeV
< 2 GeV
―
―
―
2010 - 2012
8 channels (gN,pN,hN,pD,rN,sN,KL,KS)
< 2.1 GeV
< 2 GeV
< 2 GeV
< 2 GeV
< 2.1 GeV
< 2.2 GeV
# of coupled channels
Fully combined analysis of pN , gN N , hN , KL, KS reactions !!
Kamano, Nakamura, Lee, Sato(2012)
(~ 28,000 data points to fit)
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Partial wave amplitudes of pi N scattering
8ch DCC-analysis(Kamano, Nakamura, Lee, Sato2012)
6ch DCC-analysis(fitted to pN pN data only)[PRC76 065201 (2007)]
Real part
Imaginary part
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Single pion photoproduction
6ch DCC-analysis [PRC77 045205 (2008)](fitted to gN pN data up to 1.6 GeV)
Angular distribution Angular distribution Photon asymmetry Photon asymmetry
1137 MeV 1232 MeV
1334 MeV
1462 MeV 1527 MeV 1617 MeV
1729 MeV 1834 MeV 1958 MeV
1137 MeV 1232 MeV 1334 MeV
1462 MeV 1527 MeV 1617 MeV
1729 MeV 1834 MeV 1958 MeV
8ch DCC-analysisKamano, Nakamura, Lee, Sato 2012
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1535 MeV
1674 MeV
1811 MeV
1930 MeV
1549 MeV
1657 MeV
1787 MeV
1896 MeV
Eta production reactions
Analyzed data up to W = 2 GeV. p- p h n data are selected following Durand et al. PRC78 025204.
Photon asymmetry
Kamano, Nakamura, Lee, Sato, 2012
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KY production reactions
1732 MeV
1845 MeV
1985 MeV
2031 MeV
1757 MeV
1879 MeV
1966 MeV
2059 MeV
1792 MeV
1879 MeV
1966 MeV
2059 MeV
Kamano, Nakamura, Lee, Sato, 2012
1781 MeV 1785 MeV
Polarizations are calculated using the formulae in
Sandorfi, Hoblit, Kamano, Lee, J. Phys. G 38, 053001 (2011)
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Spectrum of N* resonances(Current status)
Real parts of N* pole values
L2I 2J
PDG Ours
N* with 3*, 4* 1816
N* with 1*, 2* 5PDG 4*
PDG 3*
Ours
Kamano, Nakamura, Lee, Sato, 2012
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Note: Some freedom exists on the definition of partial width from the residue of the amplitudes.
Width of N* resonances(Current status)
Kamano, Nakamura, Lee, Sato, 2012
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Summary and future works (1/2)
;
p N
gp N
p hN
gp hp
pp KL, KS
gp K+ , L KS
2006 - 2009
6 channels (gN,pN,hN,pD,rN,sN)
< 2 GeV
< 1.6 GeV
< 2 GeV
―
―
―
2010 - 2012
8 channels (gN,pN,hN,pD,rN,sN,KL,KS)
< 2.1 GeV
< 2 GeV
< 2 GeV
< 2 GeV
< 2.1 GeV
< 2.2 GeV
# of coupled channels
Summary
Two-pole structure of the Roper resonance.
One-to-multi correspondence between bare N*s (= static hadrons) and physical resonances.
Reaction dynamics can produce sizable mass shift for N*s.
May be a key to understanding the issues in the static hadron models.
Complex nature of the resonance form factors.
Mass spectrum, decay widths, and N-N* e.m. transition form factors, etc.have been determined for N* resonances in W < 2 GeV.
Multi-channel reaction dynamics plays a crucial role for understanding the N* parameters (spectrum, formfactors etc) !!
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Collaborators @ EBAC
J. Durand (Saclay)
B. Julia-Diaz (Barcelona U.)
H. Kamano (RCNP, Osaka U.)
T.-S. H. Lee (Argonne Nat’l Lab.)
A. Matsuyama (Shizuoka U.)
S. Nakamura (JLab)
B. Saghai (Saclay)
T. Sato (Osaka U./KEK)
C. Smith (Virginia, JLab)
N. Suzuki (Osaka U.)
K. Tsushima (Adelaide U.)
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Add wN channel and complete the 9 coupled-channels analysis of
the pp, gp pN, hN, KY, wN data. (Kamano, Nakamura, Lee, Sato)
Applications to p(n, mp), p(n, mh) reactions beyond the D region (W > 1.3 GeV)
and study axial form factors of N*.
A part of the new collaboration “Toward unified description of lepton-nucleus reactions from MeV to GeV region” at J-PARC branch of KEK theory center:(Y. Hayato, M. Hirai, H. Kamano, S. Kumano, S. Nakamura, K. Saito, M. Sakuda, T. Sato)
Summary and future works (2/2)
Future works
Applications to strangeness production reactions (Kamano, Nakamura, Lee, Oh, Sato)
Y* spectroscopy, YN & YY interactions, hypernucleus, .. (related to J-PARC physics)
Applications to meson spectroscopy via heavy-meson decaysKamano, Nakamura, Lee, Sato, PRD84 114019 (2011)
p p
g X Exotic hybrids?
GlueX experiment at HallD@JLab
f0, r, ..
J/Y
Heavy meson decays
g
X Details are given in S. Nakamura’s talk(Today’s session B
16:35-16:55)
gN, pN, hN, pD, rN, sN, KL, KS, wN
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back up
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Since the late 90s, huge amount of high precision data of meson
photo-production reactions on the nucleon target has been reported
from electron/photon beam facilities.
JLab, MAMI, ELSA,
GRAAL, LEPS/SPring-8, …
Experimental developments
E. Pasyuk’s talk at Hall-B/EBAC meeting
Opens a great
opportunity to make
quantitative study of
the N* states !!
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Kamano, Nakamura, Lee, Sato, 2012
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Kamano, Nakamura, Lee, Sato 2012
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Kamano, Nakamura, Lee, Sato2012
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Kamano, Nakamura, Lee, Sato, 2012
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Single pion electroproduction (Q2 > 0)
Fit to the structure function data (~ 20000) from CLAS
Julia-Diaz, Kamano, Lee, Matsuyama, Sato, Suzuki, PRC80 025207 (2009)
p (e,e’ p0) p
W < 1.6 GeV
Q2 < 1.5 (GeV/c)2
is determined
at each Q2.
N*N
g(q2 = -Q2)q
N-N* e.m. transitionform factor
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Single pion electroproduction (Q2 > 0)Julia-Diaz, Kamano, Lee, Matsuyama, Sato, Suzuki, PRC80 025207 (2009)
p (e,e’ p0) p
p (e,e’ p+) n
Five-fold differential cross sections at Q2 = 0.4 (GeV/c)2
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Data handled with the help of R. Arndt
pi N pi pi N reaction
Parameters used in the calculation are from pN pN analysis.
Kamano, Julia-Diaz, Lee, Matsuyama, Sato, PRC79 025206 (2009)
Full result
Phase spaceFull result
W (GeV)
s (m
b)
C. C. effect off
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Double pion photoproductionKamano, Julia-Diaz, Lee, Matsuyama, Sato, PRC80 065203 (2009)
Parameters used in the calculation are from pN pN & gN pN analyses.
Good description near threshold
Reasonable shape of invariant mass distributions
Above 1.5 GeV, the total cross sections of p00 and p+-
overestimate the data.
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Definition of N* parameters
Definitions of
N* masses (spectrum) Pole positions of the amplitudes
N* MB, gN decay vertices Residues1/2 of the pole
N* pole position ( Im(E0) < 0 )
N* b decay vertex
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Scattering amplitude is a double-valued function of complex E !!
Essentially, same analytic structure as square-root function: f(E) = (E – Eth)1/2
e.g.) single-channel two-body scattering
unphysical sheet
physical sheet
Multi-layer structure of the scattering amplitudes
physical sheet
Re (E)
Im (
E)
0 0
Im (
E)
Re (E)
unphysical sheet
Re(E) + iε =“ physical world”
Eth
(branch point)Eth
(branch point)× ×××
N-channels Need 2N Riemann sheets
2-channel case (4 sheets):(channel 1, channel 2) = (p, p), (u, p) ,(p, u), (u, u)
p = physical sheetu = unphysical sheet
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N, N*
Meson cloud effect in gamma N N* form factors
GM(Q2) for g N D (1232) transition
Note:Most of the available static hadron models give GM(Q2) close to “Bare” form factor.
Full
Bare
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“Static” form factor fromDSE-model calculation.(C. Roberts et al)
A clue how to connect with static hadron models
“Bare” form factor determined fromour DCC analysis.
g p Roper e.m. transition
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Delta(1232) : The 1st P33 resonance
pN unphysical & pD unphysical sheet
pN physical & pD physical sheet
p N
p DpN unphysical & pD physical sheet
Real energy axis“physical world”
Complex E-plane
Suzuki, Julia-Diaz, Kamano, Lee, Matsuyama, Sato, PRL104 042302 (2010)
Im (E
)
Re (E)
Re (T) Im (T)
P33
1211-50i
Riemann-sheet for other channels: (hN,rN,sN) = (-, p, -)
pole 1211 , 50
BW 1232 , 118/2=59
In this case, BW mass & width can be a good approximation of the pole position.
Small background Isolated pole Simple analytic structure
of the complex E-plane
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Two-pole structure of the Roper P11(1440)
pN unphysical & pD unphysical sheet
pN physical & pD physical sheet
p N
p DpN unphysical & pD physical sheet
Real energy axis“physical world”
Complex E-plane
Suzuki, Julia-Diaz, Kamano, Lee, Matsuyama, Sato, PRL104 042302 (2010)
Im (E
)
Re (E)
Pole A cannot generate a resonance shape on“physical” real E axis.
Re (T)
Im (T)
B
A
P11
pD branch point prevents pole B from generating a resonance shape on “physical” real E axis.
1356-78i
1364-105i
Riemann-sheet for other channels: (hN,rN,sN) = (p,p,p)BW 1440 , 300/2 = 150
Two 1356 , 78poles 1364 , 105
In this case, BW mass & width has NO clear relation with the resonance poles:
?