NSR Query Results
Output year order : Descending NSR database version of April 26, 2024. Search: Author = M.Yamazaki Found 20 matches. 1995DY01 Phys.Rev. C51, 2710 (1995) S.A.Dytman, W.W.Daehnick, J.G.Hardie, M.Yamazaki, E.Booth, J.Miller, M.J.Leitch, C.S.Mishra, J.C.Peng, D.R.Tieger, K.F.von Reden Study of Baryon Resonances Through γp → (Eta)p Differential Cross Sections NUCLEAR REACTIONS 1H(γ, X), E=729, 753 MeV; measured σ(θ) for eta production; analyzed σ(E); deduced deviations from S11(1535)N(*) resonance dominance picture.
doi: 10.1103/PhysRevC.51.2710
1991DI12 Phys.Lett. 271B, 47 (1991) J.H.J.Distelbrink, W.Clayton, L.Ghedira, T.Kobayashi, D.Myers, J.Shaw, P.Stoler, E.J.Winhold, M.Yamazaki The 14N(γ, π+)14C(g.s.) Reaction through the Delta Resonance Region NUCLEAR REACTIONS 14N(γ, π+), E=400 MeV; measured σ(θ). Other data considered, model comparison.
doi: 10.1016/0370-2693(91)91276-2
1990GH01 Phys.Rev. C41, 653 (1990) L.Ghedira, D.Myers, B.H.Cottman, K.Sankhavaram, M.D.Seneviratne, P.Stoler, E.J.Winhold, M.Yamazaki, P.F.Yergin, J.H.J.Distelbrink, K.Rohrich, Ch.Schmitt, V.H.Walther, A.M.Bernstein, K.I.Blomqvist, J.A.Nelson 14N(γ, π+)14C(g.s.) at Photon Energies of 230, 260, and 320 MeV NUCLEAR REACTIONS 14N(γ, π+), E=230, 260 MeV; measured σ(θ); deduced Δ effects. Delta-hole model analysis.
doi: 10.1103/PhysRevC.41.653
1990SO06 Nucl.Phys. A517, 473 (1990) K.C.So, K.Min, L.Y.Murphy, E.J.Winhold, M.Yamazaki, P.Yergin, R.W.Gothe, B.Schoch, C.Bennhold, L.Tiator, S.J.Hall, J.D.Kellie, I.J.D.MacGregor, R.O.Owens, D.Branford Spin-Isospin Excitation in 12C(γ, π+)12B(*) using Tagged Photons NUCLEAR REACTIONS 12C(γ, π+), E=176-182 MeV; measured σ(Eπ, θπ); deduced photopion production σ(θ). 12B deduced levels. Natural target, tagged photon beam.
doi: 10.1016/0375-9474(90)90212-5
1989BA03 Phys.Rev. C39, 177 (1989) H.Baghaei, W.Bertozzi, K.I.Blomqvist, J.M.Finn, J.Flanz, C.E.Hyde-Wright, N.Kalantar-Nayestanaki, R.W.Lourie, J.Nelson, W.W.Sapp, C.P.Sargent, P.Ulmer, L.Weinstein, B.H.Cottman, P.K.Teng, E.J.Winhold, M.Yamazaki, J.R.Calarco, F.W.Hersman, C.Perdrisat, V.Punjabi, M.Epstein, D.J.Margaziotis Electroexcitation of the Δ Resonance in the (e, e'p) Reaction NUCLEAR REACTIONS 12C(e, e'p), E=460, 647; measured σ(E(e'), θp, θ(e')) vs missing energy; deduced reaction mechanism.
doi: 10.1103/PhysRevC.39.177
1989GO03 Nucl.Instrum.Methods Phys.Res. A276, 233 (1989) R.W.Gothe, R.Beck, D.Irmscher, J.Goebel, B.Schoch, J.M.Vogt, K.Min, L.Y.Murphy, K.So, E.J.Winhold, M.Yamazaki, P.F.Yergin, S.J.Hall, J.D.Kellie, I.J.D.MacGregor, D.Branford Detection of Low Energy Pions at a Tagged Photon Beam NUCLEAR REACTIONS 12C(γ, π+), E ≈ 183 MeV; measured pion spectra. Tagged photon beam.
doi: 10.1016/0168-9002(89)90638-4
1987UL03 Phys.Rev.Lett. 59, 2259 (1987) P.E.Ulmer, H.Baghaei, W.Bertozzi, K.I.Blomqvist, J.M.Finn, C.E.Hyde-Wright, N.Kalantar-Nayestanaki, S.Kowalski, R.W.Lourie, J.Nelson, W.W.Sapp, C.P.Sargent, L.Weinstein, B.H.Cottman, P.K.Teng, E.J.Winhold, M.Yamazaki, J.R.Calarco, F.W.Hersman, J.J.Kelly, M.E.Schulze, G.Audit Missing-Energy Dependence of the Separated Response Functions for the Reaction 12C(e, e'p) NUCLEAR REACTIONS 12C(e, e'p), E=288, 443 MeV; measured transverse, longitudinal response functions, spectral function difference vs missing energy; deduced reaction mechanism.
doi: 10.1103/PhysRevLett.59.2259
1987YA02 Phys.Rev. C35, 355 (1987) M.Yamazaki, P.K.Teng, B.H.Cottman, L.Ghedira, K.Min, P.Stoler, E.J.Winhold, P.F.Yergin, A.M.Bernstein, K.I.Blomqvist, J.H.J.Distelbrink, J.A.Nelson, S.A.Dytman 16O(γ, π+)16N Reaction at 320 MeV Photon Energy NUCLEAR REACTIONS 16O(γ, π+), E=320 MeV; measured σ(θ), σ(θ, pion momentum). Medium energy pion spectrometer. DWIA calculations.
doi: 10.1103/PhysRevC.35.355
1986LO03 Phys.Rev.Lett. 56, 2364 (1986); Erratum Phys.Rev.Lett. 57, 653 (1986) R.W.Lourie, H.Baghaei, W.Bertozzi, K.I.Blomqvist, J.M.Finn, C.E.Hyde-Wright, N.Kalantar-Nayestanaki, J.Nelson, S.Kowalski, C.P.Sargent, W.W.Sapp, P.Ulmer, J.Wiggins, B.H.Cottman, P.K.Teng, E.J.Winhold, M.Yamazaki, J.R.Calarco, F.W.Hersman, J.J.Kelly, M.E.Schulze Reaction 12C(e, e'p) in the Dip Region NUCLEAR REACTIONS 12C(e, e'p), E=459 MeV; measured missing energy spectra, e'p-coin; deduced reaction mechanism.
doi: 10.1103/PhysRevLett.56.2364
1986TE01 Phys.Lett. 177B, 25 (1986) P.K.Teng, B.H.Cottman, L.Ghedira, K.Min, P.Stoler, E.J.Winhold, M.Yamazaki, P.F.Yergin, A.M.Bernstein, K.I.Blomqvist, J.H.J.Distelbrink, J.A.Nelson, K.Rohrich, Ch.Schmitt, L.Tiator, V.H.Walther, S.A.Dytman, L.E.Wright Angular Distribution Measurement of 14N(γ, π+)14C(gs) at E(γ) = 320 MeV NUCLEAR REACTIONS 14N(γ, π+), E=320 MeV; measured σ(θ). DWIA, momentum space.
doi: 10.1016/0370-2693(86)90007-9
1986YA07 Phys.Rev. C34, 1123 (1986) M.Yamazaki, K.Shoda, M.Torikoshi, O.Sasaki, H.Tsubota Angular Distributions of π+ in the 10B(γ, π+) Reaction leading to Low-Lying States of 10Be NUCLEAR REACTIONS 10B(e, π+), E=185 MeV; measured σ(θ, E(π)); deduced 10B(γ, π+) partial σ. Double-focusing magnetic spectrometer. DWIA calculations.
doi: 10.1103/PhysRevC.34.1123
1985CO15 Phys.Rev.Lett. 55, 684 (1985) B.H.Cottman, K.Min, P.Stoler, P.K.Teng, E.J.Winhold, M.Yamazaki, P.F.Yergin, A.M.Bernstein, K.I.Blomqvist, J.H.J.Distelbrink, J.A.Nelson, K.Rohrich, C.Schmitt, L.Tiator, V.H.Walther, G.Audit, S.A.Dytman, L.E.Wright Measurement of 14N(γ, π+)14C(g.s.) at 200 MeV: A test of the distorted-wave impulse approximation for charged-pion photoproduction below the Δ(1232) resonance NUCLEAR REACTIONS 14N(γ, π+), E=200 MeV bremsstrahlung; measured σ(θ, E(π)) vs pion momentum, σ(θ) vs momentum transfer; deduced structure effects. DWIA, one-body pion photoproduction operator.
doi: 10.1103/PhysRevLett.55.684
1985SH11 Nucl.Phys. A439, 669 (1985) K.Shoda, M.Torikoshi, M.Yamazaki, O.Sasaki, H.Tsubota π+ Photoproduction from 28Si Leaving Low-Lying Residual States NUCLEAR REACTIONS 28Si(e, π+), E=180 MeV; measured σ(E(π+), θ). 28Mg deduced levels, M1 transition strength. Natural target.
doi: 10.1016/0375-9474(85)90332-X
1983MI06 Phys.Rev. C28, 464 (1983) K.Min, E.J.Winhold, K.Shoda, M.Torikoshi, M.Yamazaki, O.Sasaki, H.Tsubota, B.N.Sung Isovector Spin-Isospin Mode Analog Giant Resonances in 13B by 13C(e, π+)13B NUCLEAR REACTIONS 13C(e, e'π+), E=195 MeV; measured σ(E(π), θ(π)); deduced photopion σ(θ) vs Eγ. 13B deduced M2, M4 transition strength distribution, giant analog resonance excitation.
doi: 10.1103/PhysRevC.28.464
1983SH01 Phys.Rev. C27, 443 (1983) K.Shoda, M.Yamazaki, M.Torikoshi, H.Tsubota, K.Min, E.J.Winhold, A.M.Bernstein Pion Angular Distribution in 13C(γ, π+)13B(g.s.) NUCLEAR REACTIONS 13C(γ, π+), E=194 MeV bremsstrahlung; measured σ(θ). Comparison with DWIA calculations.
doi: 10.1103/PhysRevC.27.443
1983SH19 Nucl.Phys. A403, 469 (1983) K.Shoda, M.Yamazaki, M.Torikoshi, O.Sasaki, H.Tsubota, B.N.Sung Photopion Angular Distribution from 9Be(e, π+)9Li(g.s.) NUCLEAR REACTIONS 9Be(e, π+), E=200 MeV; measured σ(E(π+), θ); deduced photoproduction σ(θ), σ. Natural target.
doi: 10.1016/0375-9474(83)90617-6
1983SH41 J.Phys.Soc.Jpn. 52, 3355 (1983) K.Shoda, M.Yamazaki, M.Torikoshi, O.Sasaki, H.Tsubota, Baik Nung Sung Photo π+ Production from 16O NUCLEAR REACTIONS 16O(e, π+), E=200 MeV; measured σ(θ, E(π)); deduced photopion production σ(θ). Natural BeO target. Helm, shell model analyses.
doi: 10.1143/JPSJ.52.3355
1982LE26 Phys.Rev. C26, 2554 (1982) J.LeRose, K.Min, D.Rowley, B.O.Sapp, P.Stoler, P.-K.Teng, E.J.Winhold, P.F.Yergin, A.M.Bernstein, K.I.Blomqvist, H.S.Caplan, S.A.Dytman, G.Franklin, M.Pauli, K.Shoda, M.Yamazaki π+ Photoproduction from 13C NUCLEAR REACTIONS 13C(γ, π+), E=18, 29, 42 MeV bremsstrahlung; measured σ(θ). DWIA analysis.
doi: 10.1103/PhysRevC.26.2554
1980MI08 Phys.Rev.Lett. 44, 1384 (1980) K.Min, E.J.Winhold, K.Shoda, H.Tsubota, H.Ohashi, M.Yamazaki Study of Strong Spin-Isospin Mode Analog States at 4.5 MeV in 12B in 12C(e, e'π+)12B NUCLEAR REACTIONS 12C(e, e'π+), E=200 MeV; measured σ(E(π+), θ(π+)); deduced photoproduction σ(θ). 12C, 12B levels deduced T, multipolarity. Virtual-photon theory, shell model.
doi: 10.1103/PhysRevLett.44.1384
1972YA03 Prog.Theor.Phys. 47, 1593 (1972) Multiple-Scattering Expansion and the Glauber Approximation
doi: 10.1143/PTP.47.1593
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