Baryons (and Mesons) on the Lattice
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Transcript of Baryons (and Mesons) on the Lattice
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Baryons (and Mesons) on the Lattice
Robert Edwards Jefferson Lab
EBACMay 2010
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SpectroscopySpectroscopy reveals fundamental aspects of hadronic
physics– Essential degrees of freedom?– Gluonic excitations in mesons - exotic states of
matter?
• Status– Can extract excited hadron energies & identify spins, – Pursuing full QCD calculations with realistic quark
masses.
• New spectroscopy programs world-wide– E.g., BES III, GSI/Panda– Crucial complement to 12 GeV program at JLab.
• Excited nucleon spectroscopy (JLab)• JLab GlueX: search for gluonic excitations.
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probability,
Regularization of QCD on a lattice
quark fieldgluonfield
Discretize on a finite grid - in Euclidean space-time (t→i t)
quark fields on the sitesgauge-fields on the links
do the fermion integral
Monte Carlo
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Baryon Spectrum“Missing resonance problem”• What are collective modes?• What is the structure of the states?
– Major focus of (and motivation for) JLab Hall B– Not resolved experimentally @ 6GeV
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Variational Method
Matrix of correlators
Variational solution = generalized eigenvalue problem
Eigenvalue ! spectrum
Eigenvectors ! `optimal’ operators
Orthogonality needed for near degenerate states
Two-point correlator
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Light quark baryons in SU(6)Conventional non-relativistic construction:
6 quark states in SU(6)
Baryons
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Relativistic operator construction: SU(12)
Relativistic construction: 3 Flavors with upper/lower components
Times space (derivatives)
Color contraction is Antisymmetric
Dirac
Symmetric: 182 positive parity + 182 negative parity
More operators than SU(6): mixes orbital ang. momentum & Dirac spin
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Orbital angular momentum via derivatives
0905.2160 (PRD), 0909.0200 (PRL), 1004.4930
Derivatives in ladders:
Couple derivatives onto single-site spinors:
Project onto lattice irreducible representations
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Spin identified Nucleon spectrum
m¼ ~ 520MeV
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Experimental comparisonPattern of states very similar
Where is the “Roper”? Thresholds & decays: need multi-particle ops
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Towards resonance determinations
• Augment with multi-particle operators• Heavy masses: some elastic scattering
– Finite volume (scattering) techniques (Lüscher)– Phase shifts ! width
• Elastic & inelastic scattering:– Overlapping resonances– Will need/extend to finite-volume multi-channel– E.g., work by Bonn group– R. Young (next talk!)
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Phenomenology: Nucleon spectrum
Looks like quark model?
Compare overlaps & QM mixings
[70,1-]P-wave
[56,2+]D-wave
[70,2+]D-wave
[20,1+]P-wave
m¼ ~ 520MeV
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Spin identified ¢ spectrum
[70,1-]P-wave
[56,2+]D-wave
Spectrum slightly higher than nucleon
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Nucleon & Delta SpectrumLighter mass: states spreading/interspersing
< 2% error bars
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m¼ ~ 400 MeV
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Nucleon & Delta SpectrumFirst results from GPU-s
< 2% error bars [56,2+]D-wave
[70,1-]P-wave[70,1-]
P-wave
[56,2+]D-wave
Discern structure: wave-function overlaps
Change at lighter quark mass? Decays!
Suggests spectrum at least as dense as quark model
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Isovector Meson Spectrum
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Isovector Meson Spectrum
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1004.4930
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Exotic matterExotics: world summary
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Exotic matter
Suggests (many) exotics within range of JLab Hall D
Previous work: charmonium photo-production rates high
Current GPU work: (strong) decays - important experimental input
Exotics: first GPU results
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Spectrum of finite volume field theory
There are states missing that we know should be there
The ‘continuum’ of meson-meson (or meson-baryon) scattering states !
Infinite volume, a continuous spectrum of ππ states
2mπ 2mπ
Finite volume, a discrete spectrum of states
e.g. a free particle
periodic boundary conditions
quantized momenta
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Spectrum of finite volume field theory
Infinite volume, a continuous spectrum of ππ states
2mπ 2mπ
Finite volume, a discrete spectrum of states
e.g. a free particle
periodic boundary conditions
quantized momenta
2mπ
Non-interacting two-particle states have known energies
Deviation from free energies depends upon the interaction and contains information about the scattering phase shift
ΔE(L) ↔ δ(E) : Lüscher method
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Finite volume scattering Reverse engineer Use known phase shift ! anticipate spectrum
E.g. just a single elastic resonance e.g.
Lüscher method - essentially scattering in a periodic cubic box (length L)- finite volume energy levels E(δ,L)
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Using the Lϋscher methodEnergylevelsL ~ 2.9 fm
e.g. L ~ 2.9 fm
Excited state spectrum at a single volume
Discrete points on the phase shift curve
Do more volumes, get more points
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The interpretation
“non-interacting basis states”
Finite volume QCD energy eigenvalues
Non-interacting two-particle states have known energies
Level repulsion - just like quantum mechanical pert. theory
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The interpretation
energylevels
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Multi-particle states
We don’t see the meson-meson (or meson-baryon) states in the spectrum
Should we ? where will they be (roughly) ?
Plot the non-interacting meson levels as a guide
e.g.
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Need multi-particle operators for overlap
Annihilation diagrams. GPU-s to the rescue!
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Phase Shifts: demonstration
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Where are the Form Factors??• Previous efforts
– Charmonium: excited state E&M transition FF-s (1004.4930)– Nucleon: 1st attempt: E&M Roper->N FF-s (0803.3020)
• Spectrum first!– Basically have to address “what is a resonance’’ up front– (Simplistic example): FF for a strongly decaying state:
linear combination of states
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energylevels
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Summary• Strong effort in excited state spectroscopy
– New operator & correlator constructions ! high lying states
– Finite volume extraction of resonance parameters – promising
– Significant progress in last year, but still early stages• Initial results for excited state spectrum:
– Suggests baryon spectrum at least as dense as quark model
– Suggests multiple exotic mesons within range of Hall D
• Resonance determination:– Start at heavy masses: have some “elastic scattering”– Already have smaller masses: move there + larger volumes
(m¼~230MeV, L= 3 & 4fm)– Now: multi-particle operators & annihilation diagrams (gpu-s)– Starting physical limit gauge generation– Will need multi-channel finite-volume analysis for (in)elastic
scattering
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Backup slides• The end
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Towards resonance determinations
• Augment with multi-particle operators– Needs “annihilation diagrams” – provided by
Distillation Ideally suited for (GPU-s)
• Resonance determination– Scattering in a finite box – discrete energy levels– Lüscher finite volume techniques– Phase shifts ! Width
• First results (partially from GPU-s)– Seems practical
arxiv:0905.2160
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Backup slides• The end
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Determining spin on a cubic lattice?
Spin reducible on lattice
Might be dynamical degeneracies
H G2 H G2H G2
mass
G1 H G2
Spin 1/2, 3/2, 5/2, or 7/2 ?
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Spin reduction & (re)identification
Variational solution:
Continuum
Lattice
Method: Check if converse is true
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Correlator matrix: near orthogonality
PRL (2007), arXiv:0707.4162 & 0902.2241 (PRD)
Normalized Nucleon correlator matrix
C(t=5)
Near perfect factorization:
Continuum orthogonality
Small condition numbers ~ 200
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Nucleon spectrum in (lattice) group theory
PRD 79(2009), PRD 80 (2009), 0909.0200 (PRL)
Nf= 2 + 1 , m¼ ~ 580MeV
Units of baryon
3/2+ 5/2+ 7/2+
3/2- 5/2- 7/2-
1/2+ 7/2+
5/2+ 7/2+
5/2- 7/2-
1/2- 7/2-
5/2-
J = 1/2J = 3/2J = 5/2J = 7/2
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Interpretation of Meson Spectrum
Future: incorporate in bound-state model phenomenology
Future: probe with photon decays
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Exotic matter?
Can we observe exotic matter? Excited string
QED
QCD
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Distillation: annihilation diagrams
• Two-meson creation op
• Correlator
arxiv:0905.2160
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Operators and contractions• New operator technique: Subduction
– Derivative-based continuum ops -> lattice irreps
– Operators at rest or in-flight, mesons & baryons
• Large basis of operators -> lots of contractions– E.g., nucleon Hg 49 ops up through 2 derivs– Order 10000 two-point correlators
• Feed all this to variational method
– Diagonalization: handles near degeneracies
PRL 103 (2009)
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