Recent Progress in Few-Body Physics: Proceedings of the 22nd International Conference on Few-Body Problems in Physics (Springer Proceedings in Physics, 238)

Preface
Contents
Contributors
Atomic and Molecular Physics
1 Positronium Negative Ions: The Simplest Three Body State Composed of a Positron and Two Electrons
	1.1 Introduction
	1.2 Properties of Ps−
	1.3 First Observation of Ps− and Measurements of Its Decay Rate
	1.4 Efficient Production of Ps−
	1.5 Observation of Ps− Photodetachment
	1.6 Observation of Ps− Shape Resonance
	References
2 Time Evolution of a Three-Body Wave Function in Two Dimensions
	2.1 Introduction
	2.2 Formalism
		2.2.1 Time Dependent Schroedinger Equation
	References
3 Discrete Scaling and Scattering Properties from Atom-Dimer Collision
	3.1 Introduction
	3.2 Model Description and Results
	3.3 Summary
	References
4 Interaction Potential for a System of N Charged Particles Near a Spherical Interface
	4.1 The Potential for N Charged Particles Near a Spherical Interface
	4.2 Bound States Dependence on the Radius R
	4.3 Summary
	References
5 Potential Splitting Approach  for Faddeev-Merkuriev Equations: Application to e–barH (e+-H)  and e+-He+ Multichannel Scattering
	5.1 Introduction
	5.2 Theory
	5.3 Results
	References
6 Energy Levels of Excitons in Square Quantum Wells
	6.1 Introduction
	6.2 Theory
	6.3 Results
	References
7 Ultracold Neon Trimer via Faddeev Differential Equations
	7.1 Introduction
	7.2 Three-Atomic Clusters
	7.3 Conclusion
	References
8 QED in the Clothed-Particle Representation
	8.1 UCT Method in Action
	8.2 Interaction Operator for the e-e+ rightarrowe-e+ Scattering
	8.3 Corrections to the Positronium Ground State Energy
	References
9 Low-Dimensional Few-Body Processes in Confined Geometry of Atomic and Hybrid Atom-Ion Traps
	9.1 Introduction
	9.2 Atom-Ion Collisions in Hybrid Atom-Ion Traps
	9.3 Conclusion
	References
10 Mesoscopic Bose-Einstein Condensate  in Anharmonic Trap: Concept  of Transition Exponent
	References
11 Study of Helium and Lithium Atomic Systems with the Discrete Variable Representations
	11.1 Introduction
	11.2 Formulation of the Problem and the Discrete-Variable Representation
	11.3 Results and Discussion
	References
12 Potential Splitting Approach for Atomic and Molecular Systems
	12.1 Introduction
	12.2 Theoretical Approach
	12.3 Applications of the Potential Splitting Method
		12.3.1 Atomic Systems
		12.3.2 Molecular Systems
	12.4 Conclusions
	References
13 Fragmentation Dynamics of Atomic  and Molecular Clusters
	13.1 Introduction
	13.2 Experiment
	13.3 Ar2 Rare Gas Dimers
		13.3.1 Electron Capture Process
		13.3.2 Relaxation Pathways
	13.4 (N2)2 Nitrogen Dimers
	13.5 Conclusion
	References
14 Precision Calculations for Three-Body Molecular Bound States
	14.1 Introduction
	14.2 Variational Solutions of the Schrödinger Equation
	14.3 Calculation of QED Corrections
	References
Nuclear Physics and Astrophysics
15 Tensor Correlations in α Clustering Studied with Antisymmetrized Quasi Cluster Model
	References
16 The First Unbound States in the A=9 Mirror Nuclei 9B and 9Be
	16.1 Introduction
	16.2 Three-Body Model and Complex Scaling Method
	16.3 Results
	16.4 Summary
	References
17 Gamow Shell Model Description  of 4He(d,d)
	17.1 Introduction
	17.2 Cluster States Definition in Relative and Laboratory Frames
	17.3 Hamiltonian Coupled-Channel Equations
	17.4 Differential Cross Sections
	17.5 Conclusion
	References
18 Boron Isotopes at the Drip-Line: The 19B Case
	18.1 Introduction
	18.2 Experimental Stup
	18.3 Analysis and Interpretation
	18.4 Conclusion
	References
19 Elastic α-12C Scattering at Low Energies with the Bound States of 16O in EFT
	19.1 Introduction
	19.2 Formalism
	19.3 Results and Discussion
	References
20 The SE1 Factor of Radiative α Capture on 12C in Effective Field Theory
	20.1 Introduction
	20.2 Diagrams
	20.3 Result
	References
21 Astrophysical S-Factor of the Direct α(d,γ)6Li Capture Reaction  in a Three-Body Model
	21.1 Introduction
	21.2 Isospin-Forbidden E1 Transitions
	21.3 Three-Body Model of α(d,γ)6Li Reaction
	21.4 Comment on the Exact-Masses Prescription
	21.5 Conclusion
	References
22 Observation of New Neutron Resonances in 17,19C
	22.1 Introduction
	22.2 Experiment and Results
	22.3 Discussion
	22.4 Summary
	References
23 Two-Nucleon Emitters Within  a Pseudostate Approach
	23.1 Introduction
	23.2 Resonance Operator
	23.3 Time Dependence and Resonance Parameters
	References
24 The Hoyle State in Relativistic 12C Dissociation
	References
25 Differential Cross Sections and Analyzing Powers of the Three-Body Break-Up Channel in Deuteron-Deuteron Scattering at 65 MeV/nucleon
	25.1 Experimental Results
	References
26 Analyzing Powers of the Proton-Deuteron Break-Up Reaction at Large Proton Scattering Angles at 135 MeV
	References
27 Ab initio Folding Potentials  for Proton-Nucleus Scattering with NCSM Nonlocal One-Body Densities
	References
28 Few-Body Reactions and Processes  in Neutron Star Envelopes
	28.1 Introduction
	28.2 Two Types of Electron-Nucleus Threshold Reactions
	28.3 Conclusion
	References
29 Five-Nucleon Systems with an Hyperspherical Harmonic Method
	29.1 Introduction
	29.2 Hyperspherical Harmonics
	29.3 Variational Approach
	References
30 S-factor and Scattering Parameters  from 3He + 4He rightarrow7Be + γ Data
	30.1 Formalism for E1 Capture
	30.2 Data, Bayesian Analysis, and Results
	References
31 Analysis of 74-82Se Within the Framework of the IBM and the Few-Body Aspects
	31.1 Introduction
	31.2 Theoretical Approach
	31.3 Nuclear Structures of 74-82Se Isotopes
	31.4 Summary
	References
32 Microscopic Optical Potentials from First Principles
	32.1 Introduction
	32.2 Formalism
	32.3 Results
	32.4 Conclusions
	References
33 Beryllium-9 in Cluster Effective Field Theory
	33.1 Introduction
	33.2 Halo-EFT Approach
	33.3 Results
	References
34 Cluster Configuration Effects in the Elastic Scattering of Boron Isotopes 8B, 10B, 11B and 12B on 58Ni
	34.1 Introduction
	34.2 Systematic for Boron Isotopes Elastic Scattering
	34.3 Summary
	References
35 Inclusive Breakup Reaction of a Two-Cluster Projectile on a Two-Fragment Target: A Genuine Four-Body Problem
	35.1 Introduction
	35.2 Two-Fragment Projectile on a One-Fragment Target Nucleus
	35.3 Inclusive Non-elastic Breakup Reactions of Three Fragment Projectiles
	35.4 The Case of a Two-Fragment Projectile on a Two-Fragment Target
	35.5 Outline of the Derivation of (35.18)–(35.20)
	References
36 Glauber Model Analysis for the 22C Nuclear Radius
	36.1 Introduction
	36.2 Models
	36.3 Results and Discussions
	36.4 Conclusion
	References
37 Properties of Supersymmetric Transformed Alpha-Nucleus Potentials Studied with Electric-Multipole Transitions
	References
38 Two-Neutron Correlations in 6He Studied with Spin-Flip Charge-Exchange Transitions
	References
39 R-Mode Instability of Neutron Stars Using Nuclear EoS from DDM3Y
	39.1 Introduction
	39.2 Dissipative Time Scales
	39.3 Theoretical Calculations and R-Mode Instability
	39.4 Results and Discussion
	39.5 Summary and Conclusions
	References
40 Radiative 3He(2H,γ)5Li Capture at Astrophysical Energy and Its Possible Role in Accumulation of 6Li at the BBN
	References
41 Experimental Studies of Unbound Neutron-Rich Nuclei
	41.1 Introduction
	41.2 Experiment for 25O and 26O
	41.3 Experiment for 27O and 28O
	References
42 Extraction of Nucleon Polarisabilities from Light Nuclei
	42.1 Introduction
	42.2 Chiral Effective Field Theory
	42.3 Compton Scattering from the Nucleon
	42.4 Compton Scattering from the Deuteron
	42.5 Compton Scattering from 3He
	42.6 Spin Polarisabilities
	References
43 The Quest for New Data on the Space Star Anomaly in Pd Breakup
	43.1 Introduction
	43.2 The BINA Experimental Setup
	43.3 Results
	References
44 New Ab Initio Approach to Nuclear Reactions Based on the Symmetry-Adapted No-Core Shell Model
	44.1 Introduction
	44.2 Unified Ab Initio Approach for Medium-Mass Nuclei
	References
45 Cluster Structure of the Ground and Excited States of 9Be and 10B Nuclei
	45.1 Multicluster Structure of 9Be Nucleus
	45.2 Cluster Structure of 10B Nucleus
	45.3 Conclusion
	References
46 Characteristics of 6Li Nucleus Cluster Photodisintegration Reactions
	46.1 Introduction
	46.2 E1-Transitions at Low Energies
	46.3 Conclusion
	References
47 Three-Body Approach to Deuteron-Alpha Scattering Using Realistic Forces in a Separable or Non-separable Representation
	47.1 Introduction
	47.2 Faddeev-AGS Equations
	47.3 Results and Discussion
	47.4 Summary and Outlook
	References
48 A Fresh Look at Treatment of Radiative Capture in Nuclear Reactions: Applications to the α-α Bremsstrahlung
	48.1 Theoretical Background
	48.2 Application to Alpha-Alpha Bremsstrahlung
	48.3 Some Numerical Details
	References
49 Direct Measurement of the 13C(α,n)16O Reaction at LUNA
	49.1 State of the Art
	49.2 The 13C(α,n)16O Measurement at LUNA
	49.3 Preliminary Results and Conclusion
	References
50 Validity of Quasi-classical Approaches  to True Three-Body Decays
	References
51 Complex-Range Gaussians as a Basis for Treatment of Charged Particle Scattering
	51.1 Introduction
	51.2 The Formalism
	51.3 Numerical Illustrations
	51.4 Conclusions
	References
52 Study of a 5-Alpha Cluster Candidate with the 22Ne(p,t)20Ne and 22Ne(p,3He)20F Reactions
	52.1 Introduction
	52.2 Experimental Procedure
	52.3 Preliminary Results and Discussion
	References
53 Unveiling New Features in Rare Isotopes with Direct Reactions
	53.1 Introduction
	53.2 Nuclear Halo and Skin
	53.3 Shell Evolution Towards the Drip-Lines
	53.4 Nuclear Force Sensitivity in Rare Isotopes
	53.5 Summary
	References
54 The Unitarity Expansion for Light Nuclei
	54.1 Introduction
	54.2 Formalism
	54.3 Results and Discussion
	References
55 A New Measurement of the 2H(p,γ)3He Cross Section in the BBN Energy Range at LUNA
	55.1 The Primordial Nucleosynthesis and the D/H Abundance Predictions
	55.2 The 2H(p,γ)3He measurement
	References
56 Three-Nucleon Force Studies in Proton-Deuteron Break-Up Reaction with BINA at 190 MeV
	56.1 Introduction
	56.2 Analysis Method
	56.3 Results and Discussions
	References
57 Structure of Beryllium Isotopes Beyond the Neutron Dripline
	57.1 Introduction
	57.2 Experimental Setup
	57.3 Preliminary Results
	57.4 Summary and Perspectives
	References
58 Approximate Sum Rule for the Electric Dipole Moment of Light Nuclei
	58.1 Motivation
	58.2 The Model Setup
	58.3 The Nuclear Electric Dipole Moment
	58.4 Summary
	References
59 Electron Scattering Experiments  on Light Nuclei
	59.1 Introduction
	59.2 Double-Polarised Electron Scattering Experiments
	59.3 Investigating 3He with 3\"0245He(\"0245e,e\'p) Reactions
	59.4 Investigating 12C with 12C(\"0245e,e\'\"0245p) Reaction
	59.5 Conclusions
	References
60 The Basic Model of Nuclear Theory: From Atomic Nuclei to Infinite Matter
	60.1 Introduction
	60.2 The Basic Model of Nuclear Theory
	60.3 Local Chiral Hamiltonians
	60.4 Applications
	60.5 Conclusions
	References
61 Effective Description of  5-10He  and the Search for a Narrow 4n Resonance
	61.1 Effective Description of Neutron-Rich Helium Isotopes
	61.2 The Search for a Narrow  4n  resonance
	References
62 Exploring Beyond the Proton Drip Line
	62.1 Introduction
	62.2 Resonant Elastic Scattering Technique
	62.3 The Case of 19Na
	62.4 The Case of 18Na
	62.5 The Case of 16F
	62.6 The Case of 15F
	References
63 Four-Body Effects in Nucleus-Nucleus Scattering
	63.1 Introduction
	63.2 Overview of the Four-Body CDCC Method
	63.3 Application to 11Be+d Scattering
	63.4 Application to 7Li+d Elastic Scattering
	63.5 Conclusion
	References
64 Few-Nucleon Reactions in Underground Laboratory
	64.1 Introduction
	64.2 Thermonuclear Fusion: The pp-Chain and the CNO Cycle
	64.3 Qualitative Features of the Nuclear Reaction Mechanism
	64.4 Experimental Approach in an Underground Laboratory
	64.5 Overview of 3He(4He, γ)7Be and 14N(p, γ)15O reactions
		64.5.1 The 3He(4He, γ)7Be reaction
		64.5.2 The 14N(p, γ)15O reaction
	64.6 Outlook and Conclusion
	References
65 A Comprehensive Measurement of Analyzing Powers in the Proton-Deuteron Break-Up Channel at 135 MeV
	65.1 Introduction and Experimental Setup
	65.2 Data Analysis
	65.3 Results
	References
Few-Nucleon Systems and Qcd Inspired Approaches
66 Low-Energy QCD Research at TUNL
	66.1 Introduction
	66.2 Exclusive Photodisintegration of 3He
	66.3 Cross-Section Measurements of nn QFS in nd Breakup
	References
67 How to Use Renormalization Group Analysis in Lattice Nuclear Effective Field Theory
	67.1 Introduction: Sign Problem and the Reweighting Method
	67.2 RG Analysis and the Choice of the Reference Determinant
	67.3 Results
	67.4 Summary
	References
68 Polarisabilities from Compton Scattering on 3He
	References
69 Relation Between Scattering Amplitude and Bethe-Salpeter Wave Function Inside Interaction Range
	69.1 Introduction
	69.2 Relation in the Infinite Volume
	69.3 Relation on the Lattice
	69.4 Lattice QCD Calculation
	69.5 Summary
	References
70 3N Continuum Reactions with Semilocal Coordinate-Space Regularized Chiral Forces
	70.1 Introduction
	70.2 Theoretical Formalism and Determination of cD  and cE
	70.3 Results
	70.4 Summary and Conclusions
	References
71 Momentum Distributions in 3He with Chiral Potentials
	71.1 Introduction
	71.2 Results
	71.3 Summary and Conclusions
	References
72 Reaction Mechanisms in Deuteron-Proton Elastic Scattering  at Intermediate Energies
	72.1 Introduction
	72.2 General Formalism
	72.3 Discussion and Conclusion
	References
73 Relativistic Faddeev Calculation  for Nucleon-Deuteron Scattering  with the Kharkov Potential
	73.1 Introduction
	73.2 Kharkov Potential
	73.3 Relativistic Calculations of the Nd Scattering at E=186.6MeV/nucleon
	73.4 Remark and Outlook
	References
74 Study of Three-Nucleon Dynamics in the dp Breakup Collisions Using the WASA Detector
	74.1 Introduction
	74.2 Data Analysis
	74.3 Summary and Outlook
	References
75 Few Nucleon Experiments  in the Hadronic Weak Interaction
	75.1 Introduction
	75.2 Theoretical Landscape
	75.3 Low Energy Experiments
	75.4 Recent Results in Few-Body Systems and Outlook
	References
76 Resonance Production of Two Pions  in the Reaction pdtopdππ at 1–2 GeV
	References
77 Four-Body Continuum with Three-Nucleon Forces
	77.1 Introduction
	77.2 Results
	77.3 Conclusions
	References
78 4-Nucleon System Dynamics in Proton Helium-3 Scattering
	78.1 Introduction
	78.2 Experimental Method
	References
79 Measurement of 3He Analyzing Power for p-3He Elastic Scattering at 70 MeV
	79.1 Introduction
	79.2 The Polarized 3He Target
	79.3 The Measurement of 3He Analyzing Power
	79.4 Results
	79.5 Summary and Outlook
	References
80 Exploring High Quality Chiral Forces
	80.1 Introduction
	80.2 Pion Exchanges Versus Contact Interactions at N4LO
	80.3 Phase-Shift and Pairing Gap in the 1S0 Channel
	80.4 Final Remarks
	References
81 Experimental Study of Few Nucleon Correlations Using Deuteron Beam at Nuclotron
	81.1 Short Introduction
	81.2 Results
	81.3 Conclusion
	References
82 High-Precision Nucleon-Nucleon Potentials from Chiral EFT
	82.1 Introduction
	82.2 The Semi-local Momentum-Space (SMS) Regularized Potential
		82.2.1 Regularization
		82.2.2 Redundant Contact Interactions at Order Q4
	82.3 Results
	References
83 Configurational Efficiency with Reconstructed Neutron for Deuteron Breakup Reaction
	83.1 Motivation
	83.2 Experimental Setup
	83.3 Configurational Efficiency
	References
84 Compelete Set of Deuteron Analyzing Powers for dp Elastic Scattering at 70–300 MeV/nucleon and Three-Nucleon Forces
	84.1 Introduction
	84.2 Experimental Results of dp Scattering
	84.3 Summary
	References
85 Measurement for p–3He Elastic Scattering with a 65 MeV Polarized Proton Beam
	85.1 Introduction
	85.2 Experiment
	85.3 Results
	85.4 Summary
	References
86 Effective Field Theory Descriptions  of Few-Nucleon Systems
	86.1 Generalities on Effective Field Theories
	86.2 Chiral Versus Pionless EFT
	86.3 Impact of the Pion-Exchange in the LO π/4—0-00-to4toto4π/4—0-00-to4toto4π/4—0-00-to4toto4π/4—0-00-to4toto4EFT
	86.4 Cutoff Optimization at LO
	86.5 Accurate N2LO Description of the A = 3 Continuum
	86.6 Conclusions
	References
87 Study of Multi-neutron Systems with SAMURAI Spectrometer
	87.1 Introduction
	87.2 Description of the 8He(P, 2p)7H{T + 4n} Experiment
	87.3 Perspectives
	References
88 Nucleon Structure from Lattice QCD
	88.1 Introduction
	88.2 Nucleon Structure
		88.2.1 Nucleon Axial and Tensor Charges and σ-Terms
		88.2.2 Spin Decomposition
		88.2.3 Electromagnetic Form Factors
	88.3 Conclusions
	References
89 Experimental Analysis of Few-Body Physics
	89.1 Introduction
	89.2 Inclusive Breakup Reaction
	89.3 Exclusive Breakup Reactions
	References
90 Strong Interactions for Precision Nuclear Physics
	90.1 Ab initio Nuclear Theory with χEFT
		90.1.1 Optimization of LECs and Uncertainty Quantification of Predictions from χEFT
		90.1.2 With an EFT, We Can Do Better
	90.2 Muon-Capture on the Deuteron
	90.3 From Few to Many
		90.3.1 Delta Isobars and Nuclear Saturation
	90.4 Discussion and Outlook
	References
91 Recent Developments in Solving the Few-Particle Scattering Problem by the Solution of The Faddeev-Yakubovsky Equations
	91.1 Introduction
	91.2 Five-Body FY Equations
	91.3 Results
	References
92 Few-Body Systems in Minkowski Space: The Bethe-Salpeter Equation Challenge
	92.1 Introduction
	92.2 The Bethe-Salpeter Equation in a Nutshell
	92.3  The Nakanishi Integral Representation and the BS Amplitude
	92.4 Projecting BSE onto the Hyper-Plane x+=0
	92.5  Excerpt of the Numerical Results
	92.6 Conclusions and Perspectives
	References
93 Time Reversal Violation in Two and Three Nucleon Systems
	93.1 Introduction
	93.2 The Nuclear TRV Potential
	93.3 The EDM of 2H and 3H
	References
94 Lattice Simulations with Chiral Effective Field Theory for Light  and Medium-Mass Nuclei
	94.1 Introduction
	94.2 Euclidean Time Projection Monte Carlo
	94.3 Results
	References
95 Light Nuclei from Lattice QCD: Spectrum, Structure and Reactions
	95.1 One the Goals and Impact of a LQCD Program for Nuclear Physics
	95.2 Hadronic Interactions
	95.3 Nuclear Structure
	95.4 Nuclear Reactions
	95.5 Summary and Outlook
	References
Hadron and High-Energy Physics
96 Study of Non-strange Dibaryon Resonances Via Coherent Double Neutral-Meson Photoproduction from the Deuteron
	96.1 Dibaryons
	96.2 Experiments and Analysis
	96.3 Results and Discussion
	96.4 Summary and Acknowledgements
	References
97 ηn Photoproduction and Nucleon Resonances
	97.1 Introduction
	97.2 Formalism
	97.3 Results and Discussion
	97.4 Conclusion and Outlook
	References
98 Hidden-Charm and Bottom Meson-Baryon Molecules Coupled with Five-Quark States
	98.1 Introduction
	98.2 Model and Results
	98.3 Conclusions
	References
99 Short Range πJ/ψ-DbarDast Potential Described by the Quark Exchange Diagram
	99.1 Introduction
	99.2  Meson Exchange Model
	99.3 Quark Exchange Model
	99.4 Numerical Results
	99.5 Summary
	References
100 The Origin of the Nucleon Mass
	100.1 Introduction
	100.2 Standard Decompositions
		100.2.1 Trace Decomposition
		100.2.2 Ji\'s Decomposition
	100.3 New Decomposition
	100.4 Discussion
	References
101 Pion-Cloud Contribution to the NrightarrowΔ Transition Form Factors
	101.1 Formalism
	101.2 Results and Discussion
	References
102 Pasta Phases Within the QMC Model
	102.1 Introduction
	102.2 The Quark-Meson Coupling Model
	102.3 Results
	102.4 Conclusions
	References
103 Elastic Form Factor of Pseudoscalar Mesons
	103.1 Introduction
	103.2 Formulations
	103.3 Results and Conclusion
	References
104 Light Hadron Spectroscopy at BESIII
	104.1 Introduction
		104.1.1 X(pbarp ) and X(1835)
		104.1.2 η(1405)/η(1475)
		104.1.3 Conclusions
	References
105 Relativistic Effects in Non-relativistic Calculations of Electroweak Cross Sections
	105.1 Introduction
	105.2 The Integral Transform Approach
	105.3 Different Frames and the Role of Relativity
	105.4 Results
	References
106 Bethe-Salpeter Approach to Three-Body Bound States with Zero-Range Interaction
	106.1 Introduction
	106.2 Bethe-Salpeter Equation
	106.3 Results
	References
107 Meson-Baryon Scattering in Extended-on-Mass-Shell Scheme Up to NNLO
	107.1 Introduction
	107.2 Theoretical Formalism
	107.3 Fitting and Results
	107.4 Summary
	References
108 Electromagnetic Transitions of Doubly Charmed Baryons Within Light-Cone Sum Rules
	108.1 Introduction
	108.2 Light-Cone Sum Rules and Numerical Analyses
	108.3 Summary and Discussions
	References
109 Pion Effects in N and Δ Masses  and Strong Form Factors
	109.1 Motivation
	109.2 Coupled-Channels Constituent Quark Model
	References
110 Poincaré Covariant Light-Front Spectral Function and Transverse Momentum Distributions
	110.1 Introduction
	110.2 Light-Front Spin-Dependent Spectral Function and Transverse Momentum Distributions
		110.2.1 Spin-Dependent Momentum Distribution
		110.2.2 Fermion Correlator and LF Spectral Function
	110.3 Conclusions and Perspectives
	References
111 Description of the Zc Exotics States  in a Quark Model Coupled Channel Calculation
	111.1 Introduction
	111.2 Theory
	111.3 Results
	References
112 Electromagnetic Properties of Singly Heavy Baryons
	112.1 Introduction
	112.2 Results and Discussion
	References
113 Performance of the FOREST/BLC Spectrometer for Study of the η-nucleon Interaction via the γd rightarrowpηn Reaction
	113.1 Introduction
	113.2 Experimental Setup
	113.3 Forward Proton Measurements
	113.4 Summary and Acknowledgements
	References
114 Strong Decays of p Wave Heavy Mesons in HHχPT
	114.1 Introduction
	114.2 The Chiral Lagrangian
	114.3 Coefficients
	114.4 Decay Widths and Conclusion
	References
115 Relativity in Few-Hadron Systems: Analysis of Baryon Electromagnetic Transition Form Factors in the Covariant Spectator Theory
	115.1 Introduction
	115.2 The CST Model and the Electromagnetic Quark Current
	115.3 Results in the Time-Like Region for the Δ(1232) and the N*(1520)
	115.4 Conclusions and Outlook
	References
116 Masses and Structure of Heavy Quarkonia and Heavy-Light Mesons  in a Relativistic Quark Model
	116.1 Theoretical Framework
	116.2 Numerical Results and Conclusions
	References
117 The Molecular Nature of Some Ωc0 States
	117.1 Introduction
	117.2 Formalism
	117.3 Results
	117.4 Conclusions
	References
118 Meson Studies with a Contact Interaction
	118.1 Introduction
	118.2 SDBSE Approach and CI Model
		118.2.1 Contact Interaction Model
		118.2.2  CI model running coupling
	118.3 Results
		118.3.1  Charmed Mesons
		118.3.2 Bottom Mesons
	118.4  Conclusions
	References
119 XYZ Mesons at BESIII
	119.1 Introduction
	119.2 The Charged Charmonium-Like State Zc(3900)
		119.2.1 Discovery of the Zc(3900)
		119.2.2 Spin-Parity of the Zc(3900)
		119.2.3 Observation of Zc(3900)mpto(DbarD*)mp
		119.2.4 Evidence for Zc(3900)toρηc
		119.2.5 Observation of the Zc(4020)
	119.3 The Vector Charmonium-Like State Y(4260)
		119.3.1 e+e-toπ+π- J/ψ
		119.3.2 e+e-toπ+π- hc
		119.3.3 e+e-toπ+π-ψ(2S)
		119.3.4 e+e-toωχc0
		119.3.5 e+e-toD0D*-π+ + c.c.
		119.3.6 Resonant Parameters of the Y(4260) from Combined Fit
	119.4 The X(3872)
	119.5 Summary and Perspectives
	References
120 Few-Body Insights of Multiquark Exotic Hadrons
	120.1 Introduction
	120.2 Diquark Approximation
	120.3 Relating Mesons, Baryons and Tetraquarks
	120.4 Hall-Post Inequalities
	120.5 Color Mixing and Spin-Dependent Corrections
	120.6 Conclusions
	References
121 Imaging the Partonic Structure of the Nucleon
	121.1 Introduction
	121.2 Generalized Parton Distributions
	121.3 Transverse-Momentum Dependent Parton Distributions
	121.4 Wigner Distributions
	References
122 Nucleon Parton Distribution Amplitude: A Scalar Diquark Picture
	122.1 Introduction
	122.2 Generalities
	122.3 Examples for a Scalar Diquark
		122.3.1 Scalar Diquark Model and Structure
		122.3.2 Scalar Quark-Diquark Amplitude
	122.4 Conclusion
	References
123 Hadron Spectroscopy and Structure in the Dyson-Schwinger Approach
	123.1 Motivation
	123.2 From QCD\'s Correlation Functions to Hadrons
	123.3 Excited Baryons
	123.4 Nucleon Resonances from Compton Scattering
	References
Interdisciplinary Aspects of Few-Body Physics and Techniques
124 A Possibility of Nuclear Reaction Near the Three-Body Break-Up Threshold
	References
125 The Problem of Cluster Separability in Relativistic Few-Body Systems
	125.1 Relativistic Quantum Mechanics
	125.2 Cluster Separability and Packing Operators
	125.3 Concluding Remarks
	References
126 Scattering with Real-Time Path Integrals
	126.1 Path Integrals and Complex Probabilities
	References
127 A Simple Tool to Study Many-Body Forces
	127.1 Introduction
	127.2 Envelope Theory Equations
	127.3 An Analytical Example
	References
128 Hyperspherical Harmonics Method with Particle Excitation Degrees of Freedom
	128.1 Introduction
	128.2 Formalism
	128.3 Numerical Results
	128.4 Conclusions
	References
129 Trions in Three-, Two- and One-Dimensional Materials
	129.1 Introduction
	129.2 Effects due to the reduction of dimensionality
	129.3 Binding energy of trions
	References
130 A Statistical Analysis of the Nuclear Structure Uncertainties in µD
	130.1 Introduction
	130.2 Analysis of Uncertainties
	130.3 Results and Conclusions
	References
131 Loss of Conformality in Efimov Physics
	131.1 Introduction
	131.2 Two-Body Sector
	131.3 Three-Body Sector
	131.4 Summary
	References
132 Neutron Matter in the Unitary Limit with Implicit Renormalization of Short Range Interactions
	132.1 Introduction
	132.2 Unitary Limit and Contact Interactions
	132.3 Neutron Matter at LO, NLO and NNLO
	132.4 Conclusions
	References
133 Bosonic Drops with Two- and Three-Body Interactions Close  to the Unitary Limit
	133.1 Introduction
	133.2 Helium Dimer and Trimer with Soft Potential Models
	133.3 Saturation Properties of the N-Boson System
	133.4 Conclusions
	References
134 Evaluation of Correlations in Nuclear Matter by Using Spectral Expansion  for the In-Medium Propagator
	134.1 Introduction
	134.2 Diagonalisation Technique for the In-Medium T-matrix
	134.3 Conclusions
	References
135 Universality and the Coulomb Interaction
	135.1 Introduction
	135.2 Interaction and Methods
	135.3 Coulomb-modified Effective Range Expansion
	135.4 Application to 17F
	135.5 Summary and Conclusion
	References
136 Effective Field Theory for the Heteronuclear Efimov Effect
	136.1 Introduction
	136.2 Effective Field Theory for Heteronuclear Atomic Systems
	136.3 Three-Body Recombination at Positive Temperature
	136.4 A Finite Effective Range in the Heteronuclear System
	136.5 Summary
	References
137 Dipole-Dipole Interactions Between Neutrons
	References
138 Universal Phillips Lines for Identical Bosons and Particles of Different Masses
	138.1 Introduction
	138.2 Identical Bosons
	138.3 Non-symmetric Systems
	References
139 Efimov Physics Beyond Three Particles
	139.1 Introduction
	139.2 Methods and Results
		139.2.1 The Universal Dimer
		139.2.2 Efimov Physics in Three Identical Bosons
		139.2.3 Efimov Physics Beyond Three Identical Bosons
		139.2.4 Mass Imbalanced Fermionic Mixtures
	139.3 Conclusion
	References
140 Ab Initio Calculation of Nuclear Structure Effects in Light Muonic Atoms
	140.1 Introduction
	140.2 Ab Initio Theory for Two-Photon Exchange
	140.3 Results and Error Estimates
	140.4 Conclusions
	References
141 Investigating Shakeoff Process in Precise Correlation Measurements in Nuclear β Decay
	141.1 Introduction
		141.1.1 Correlations in Nuclear β Decay
		141.1.2 The Shakeoff Process
	141.2 LPCTrap@GANIL
	141.3 The 6He1+ Case
	141.4 The 35Ar1+ Case
	141.5 The 19Ne1+ Case
	141.6 Conclusion
	References
Strange and Exotic Matter
142 Hypernuclear Spectroscopy with Heavy-Ion Beams: Present Status  and Perspectives
	142.1 Introduction
	142.2 HypHI Project: Results and Present Status
		142.2.1 Spectroscopy of 3ΛH and 4ΛH light hypernuclei
		142.2.2 Possible Signal of 3Λn in the D + π- and T + π- Reconstruction
	142.3 Future Perspectives
		142.3.1 Prospects in Hypernuclear Physics for FRS at GSI-FAIR
		142.3.2 Further Perspective at HIAF
	142.4 Conclusion
	References
143 Baryon-Baryon Interaction in Chiral Effective Field Theory
	143.1 Introduction
	143.2 The YN Interaction in Chiral EFT
	143.3 Results
		143.3.1 ΛN, ΣN, and ΞN Scattering
		143.3.2 Λ and Σ in Nuclear Matter
	143.4 Summary
	References
144 Hyperon and Hypernuclear Physics with PANDA at FAIR
	144.1 Introduction
	144.2 Hyperon Production and Decay
	144.3 Hyperon Spectroscopy
	144.4 Hyperons and Nuclei
	144.5 Summary
	References
145 Low-Energy K- Nucleon/Multi-nucleon Interaction Studies by AMADEUS
	145.1 Introduction
	145.2 K- Multi-nucleon Absorption Cross Sections and Branching Ratios in Λp and Σ0 p Final States
	145.3 Resonant and Non-resonant Y π Transition Amplitudes Below the barKN Threshold
	145.4 Conclusion
	References
146 Search for the η-Mesic Helium in Proton–Deuteron and Deuteron–Deuteron Reactions
	146.1 Introduction
	146.2 Search for the η-Mesic 4He
	146.3 Summary and Perspectives
	References
147 Energy Dependence of the barKN Interaction and the Two-Pole Structure of the Λ(1405)—Are They Real?
	147.1 Introduction
	147.2 The Full and On-Shell Factorized WT Potentials   and
	147.3 Numerical results
	147.4 Conclusions
	References
148 Four-Body Faddeev-Type Equations for barKNNN Quasi-bound State Calculations
	148.1 Introduction
	148.2 Four-Body Faddeev-Type AGS Equations
	148.3 Four-Body Equations for the barKNNN System
	148.4 Three-Body Subsystems and Two-Body Input
	148.5 Summary
	References
149 Production of Hypernuclei and Strange Particles in Spallation Reactions at a Few GeV Using an Intranuclear Cascade Approach
	149.1 Introduction
	149.2 Ingredients
	149.3 Results
		149.3.1 Particle Production
		149.3.2 Hypernucleus Production
	149.4 Conclusion
	References
150 Kaonic Deuterium Precision Measurement at DAΦNE: The SIDDHARTA-2 Experiment
	150.1 The Scientific Case
	150.2 The SIDDHARTA-2 Experimental Setup
	150.3 Conclusions
	References
151 In-Medium Properties of SU(3) Baryons
	151.1 Introduction
	151.2 The Model
	151.3 Results and Discussions
	References
152 On the Bosonic Atoms—Structure and Processes
	152.1 Introduction
	152.2 Main Formulas
	152.3 The Results Obtained
	152.4 Conclusion
	References
153 Local Meson-Baryon Coupled-Channels Potential for the Λ(1405)
	153.1 Introduction
	153.2 Coupled-Channels Meson-Baryon Potential
	153.3 Compositeness of the Λ(1405)
	153.4 Summary
	References
154 Studies of Hyperon Production  in HADES—Cascade Production
	154.1 Introduction
	154.2 HADES Detector
		154.2.1 Forward Detector
	154.3 Simulations and Signal Reconstruction
		154.3.1 Steps of the Analysis
		154.3.2 Topological Cuts
		154.3.3 Results
	154.4 Summary and Outlook
	References
155 Universality of Two Neutrons and One Flavored Meson in Low-Energy Effective Theory
	155.1 Introduction
	155.2 Two- and Three-Body Dynamics
	155.3 Conclusion
	References
156 Dark Matter Bound States from Three-Body Recombination
	156.1 Introduction
	156.2 Few-Body Physics
	156.3 Dark Matter in the Early Universe
	References