hypernuclear photoproduction and test of elementary amplitudes
DESCRIPTION
Hypernuclear photoproduction and test of elementary amplitudes . Toshio MOTOBA ( Osaka E-C) Hypernuclear Workshop May 27 - 29, 2014 Jefferson Lab . CONTENTS. 1. Introduction / Basic Motivation 2 . Characteristics utilized for electro/photo-production with a typical target - PowerPoint PPT PresentationTRANSCRIPT
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Hypernuclear photoproduction and
test of elementary amplitudes
Toshio MOTOBA ( Osaka E-C)
Hypernuclear WorkshopMay 27 - 29, 2014 Jefferson Lab
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CONTENTS1. Introduction / Basic Motivation2. Characteristics utilized for electro/photo-
production with a typical target 28Si (g, K+)L28Al cf. new exp. report3. Extend the approach to produce heavier
hypernuclei around A=40-52 4. Hyperon s.p.e (208Pb(g, K+)L208Al)5. Two suggestions : (a) hyperon-rotation
coupling , (b) 4He(g,K+) 6. Summary 2
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1. Basic motivations to go to medium-heavy hypernuclei
• Success of JLab experiments (Hall A & C) on p-shell targets with high resolution• Theoretical framework confirmed: (DWIA, elementary amplitudes, microscopic, ) • Unique properties of the reaction process
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Theor. prediction vs. (e,e’K+) experiments
Theory
Motoba. Sotona, Itonaga, Prog.Theor.Phys.Sup.117 (1994)T.M. Mesons & Light Nuclei (2000) updated w/NSC97f. ----------------------------------------------Hall C (up) T. Miyoshi et al. P.R.L.90 (2003) 232502. G=0.75keVHall A (bottom), J.J. LeRose et al. N.P. A804 (2008) 116. G=0.67keV 4
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Hyperon recoil momentum and the transition operator determine
the reaction characteristics
qL=350-420 MeV/c at Eg=1.3 GeV
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Microscopic treatment based on the elementary transition amplitudes (p,K) case
Elementary amplitude N Y f = spin-nonflip, g= spin-flip , σ= baryon spin
(p,K) case
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Lab ds/dW photoproduction case (2Lab)
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(g,K+) case
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Elementary amplitudes (complex and momentum dependent)
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These characteristic merits of the gp → L K+ process(ability to excite high-spin unnatural-parity
states) should be realized better in heavier systems involving
large jp and large jL (e,e’K+) d3s/dEe dWe dWK = G x ds/dWK G : virtual photon flux (kinematics)
Hereafter we discuss ds/dWK for AZ (g,K+)LAZ’ 9
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A typical example of medium-heavy
target :28Si: (d5/2)6 and (sd)6P(sd)6N
to show characteristics of
the (g,K+) reaction with DDHF w.f.
Spin-orbit splitting: consistent with L7Li, 9Be,13C, 89Y
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2. Medium-heavy nuclear targets (1) Summary of A=28
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Theor. x-section for (d5/2)6 (g,K+)[ j h- j
L]J
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proton-state fragmentations should be taken into account to be realistic
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1313
Proton pickup from 28Si(0+):(sd)6 =(d5/2)4.1(1s1/2)0.9(d3/2)1.0
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Peaks can be classified by the characters
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Exp. data: Fujii et al, Proc. SNP12 workshop (2012) Seems promising, (waiting for the finalization of analysis)
Preliminary
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3. Extend to heavier nuclear Targets (2)
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52Cr: (f7/2)4 assumed
40Ca: (sd-shell LS-closed)
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52Cr ( j> dominant target case) typical unnatural-parity high-spin states
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JLab E05-115 data is coming, but not finalized yet (Nakamura)
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-BL=-21.8 MeV
B.E. should beextracted from Experiment.
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Theory side has a “flexibility” (uncertainty) Density dependence of Nijmegen NSC97f model(YNG-type eff.interaction at 89Y region.)
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Nijmegen B-B interaction model improved by taking account of
hypernuclear data
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40Ca ( LS-closed shell case): high-spin states with natural-parity (2+,3-,4+)
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Proton pickup reaction on 40Ca
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d3/2-hole
1s1/2-hole
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Well-separated series of peaksdue to large q and spin-flip dominance:j>=l+1/2, j<=l-1/2
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4. Systematics of L s.p.e.
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Taken from: Millener-Dover-Gal, PRC18 (1988)
Woods-Saxon pot. D=28MeV r_0= 1.128+0.439A^(-2/3)
Skyrme HF with r^(4/3) Density dependent
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Single-particle energies of LG-matrix ( ESC08 c) results vs.
experiments(Y. Yamamoto et al.: PTP. S.185 (2010) 72 and priv. commun. )
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High resolution exp. data over wide A are necessary.
sd, fp-shell and heavier data are quite Important to extract the L behavior in nuclear matter.
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208Pb(g,K+) 208LTl
6 proton-hole states• 2s1/2
• 1d3/2
• 0h11/2
• 0d5/2
• 0g7/2
• 0g9/2
with L (s, p, sd, fp, sdg, fph shells) 27
s
p
d f
g
We have an opportunity to observe a series of Lambda orbits ?
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Candidate targets in medium and heavy regions
Odd-Z and even-N cases (100%) chosen
2311Na, 27
13Al , 3919K ,
4521Sc , 51
23V , ( 5224Cr 83.8%), 59
27Co,
7533As , 89
39Y , 9341Nb , 103
45Rh
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5. Two interesting subjects by making use of (e,e’K+) reaction
(A) Study of coupling scheme of L with nuclear collective motions
As a promising candidate to observe it inthe fp-shell region, we propose to use 59Co(g, K+) 59
LFe (speculation)29
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One suggestion (personal view): Use 59Co as a typical target in this
mass region Reasons are rather simple:1) It has many protons in f7/2 orbit. Cross sections are comparable to 52Cr2) Proton pickup S-factors look promising .3) Study coupling features between p- & d-state L and the ground rotational motion, as in L9Be, L13C, L21Ne, L27Mg.
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59Co (g,K+) 59LFe
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spd
f
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59Co(g,K+)59LFe
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Interesting to see dynamical coupling of L in p-/d-state with Gndrotation (free from the Pauli principle)
( just preparing CAL )
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Proton-pickup experimentN.Miwano, T.Ishimatsu, R. Asano, T.Suehiro, M.Tanaka, N.P.A377 (1982) 148.
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01+
62+
21+
61+
22+
42+
41+
81+
82+
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Natural extension from a+a+L case
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weak coupling with Λ(s), strong coupling with Λ(p),
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T.Yamada, K. Ikeda, H. Bando, and T.Motoba, PRC38 (1988)
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All the existing exp.data can be explained.Genuine hypernucear states confirmed !
(K-,p-) recoilless (p+,K+) @ q=350MeV/c
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27Al (g,K+) 27LMg
(5 protons in d5/2 ) offers a similar
opportunityto study coupling of
L hyperon (p- & d-orbit) with ground rotational
motion
(SD states might be difficult to excite?)
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(B) Level energy measurement by 4H(g,K+) + p-decay
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Calculated X-S (nb/sr)
Excitation energy can be reliably deduced by the modern technique.
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SUMMARY
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1) Based on the elementary amplitudes, the microscopic theoretical framework for several hypernuclear production XS are discussed.
2) Among others the predictions for 28LAl and
52Cr are well compared with the recent expt. 40Ca and 208Pb also demonstrated
3) In addition to the L s.p.e., dynamical coupling of L with collective nuclear motion is emphasized.
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Possible test of gp->LK ampl.
44(From P. Bydzovsky )