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Search: Author = A.G.Drentje

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1992LU02      Nucl.Instrum.Methods Phys.Res. B63, 494 (1992)

J.Ludziejewski, J.Hoszowska, P.Rymuza, Z.Sujkowski, D.Anagnostopoulos, G.Borchert, M.Carlen, J.-Cl.Dousse, Ch.Rheme, A.G.Drentje

In-Beam Bent-Crystal Spectrometer for Studies of Multiple Inner Shell Ionization

RADIOACTIVITY ¹⁷⁰Tm(β^-); measured γ-line profile, X-ray spectra; deduced ¹⁷⁰Yb γ-line calibration. Bent quartz crystal spectrometer.

NUCLEAR REACTIONS ¹⁵⁹Tb(α, X), E=60 MeV; ¹⁵⁹Tb(²⁰Ne, X), E=300 MeV; measured K X-ray spectra; deduced L-shell ionization probabilities. Bent quartz crystal spectrometer.

doi: 10.1016/0168-583X(92)95224-F
Citations: PlumX Metrics

1991GR03      Nucl.Phys. A524, 228 (1991)

M.B.Greenfield, S.Brandenburg, A.G.Drentje, P.Grasdijk, H.Riezebos, S.Y.van der Werf, A.van der Woude, M.N.Harakeh, W.A.Sterrenburg, B.A.Brown

The ²⁴Mg(³He, t)²⁴Al Reaction and L=1 Giant Resonance Systematics using an Effective ³He-n Interaction at 27 MeV/Nucleon

NUCLEAR REACTIONS ²⁴Mg(³He, t), E=81 MeV; measured σ(E(t), θ(t)). ²⁴Al deduced levels, L, J, π. ¹²C, ¹⁶O, ²⁴Mg, ²⁸Si(³He, t), E=81 MeV; ³²S(³He, t), E=73 MeV; ⁴⁰Ca(³He, t), E=75 MeV; measured σ(E(t), θ(t)=0°). ¹²N, ¹⁶F, ²⁴Al, ²⁸P, ³²Cl, ⁴⁰Sc deduced isovector giant resonances. DWBA analysis, effective ³He-n force, shell model form factors.

doi: 10.1016/0375-9474(91)90025-2
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1989BR15      Phys.Rev. C39, 2448 (1989)

S.Brandenburg, W.T.A.Borghols, A.G.Drentje, A.van der Woude, M.N.Harakeh, L.P.Ekstrom, A.Hakansson, L.Nilsson, N.Olsson, R.De Leo

Evidence for a (Semi) Direct Component in the Decay of the Isoscalar Giant Monopole in ²⁰⁸Pb

NUCLEAR REACTIONS ²⁰⁸Pb(α, α'n), E=120 MeV; analyzed data. ²⁰⁸Pb deduced isoscalar giant monopole resonance decay features. ²⁰⁷Pb level deduced branching ratios.

doi: 10.1103/PhysRevC.39.2448
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1987BR09      Nucl.Phys. A466, 29 (1987)

S.Brandenburg, W.T.A.Borghols, A.G.Drentje, L.P.Ekstrom, M.N.Harakeh, A.Van Der Woude, A.Hakansson, L.Nilsson, N.Olsson, M.Pignanelli, R.De Leo

Decay of the Isoscalar Giant Monopole Resonance in ²⁰⁸Pb

NUCLEAR REACTIONS ²⁰⁸Pb(α, α'n)E=120 MeV; measured σ(θ). ²⁰⁸Pb deduced giant monopole resonance, neutron decay characteristics. Statistical model calculations.

doi: 10.1016/0375-9474(87)90344-7
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1985DE32      Nucl.Phys. A441, 591 (1985)

R.De Leo, S.Brandenburg, A.G.Drentje, M.N.Harakeh, H.Janszen, A.Van Der Woude

Study of the Fission Decay of the Isoscalar Monopole Resonance via the ²³⁸U(α, α') Reaction at 0°

NUCLEAR REACTIONS ²³⁸U(α, α'F), E=120 MeV; measured fission σ(fragment, θ). ²³⁸U deduced fission probabilities, isoscalar giant resonance decay modes.

doi: 10.1016/0375-9474(85)90440-3
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1985SA24      Nucl.Phys. A441, 640 (1985)

H.Sakai, R.K.Bhowmik, S.Brandenburg, J.H.Van Dijk, A.G.Drentje, M.N.Harakeh, Y.Iwasaki, R.H.Siemssen, S.Y.Van Der Werf, A.Van Der Woude

γ-Decay of the Deeply-Bound Hole States in ¹⁰¹Pd, ¹⁰⁵Pd, ¹⁰⁷Pd, ¹¹¹Sn, ¹¹⁷Sn Observed in the (³He, αγ) Reaction at 70 MeV

NUCLEAR STRUCTURE ^101,105,107Pd; calculated levels, δ, γ-branching. Quasiparticle-plus-rotor model.

NUCLEAR REACTIONS ^102,106,108Pd, ^112,118Sn(³He, αγ), E=70 MeV; measured αγ-coin, Iγ(θ). ^101,105,107Pd, ^111,117Sn levels deduced C²S, mixing ratio. DWBA analysis. Enriched targets, magnetic spectrometer. NaI, Ge detectors.

doi: 10.1016/0375-9474(85)90442-7
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1985ZW02      Nucl.Phys. A439, 117 (1985)

F.Zwarts, A.G.Drentje, M.N.Harakeh, A.Van Der Woude

The Decay of Isoscalar Giant Resonances in ²⁴Mg and ⁴⁰Ca

NUCLEAR REACTIONS ²⁴Mg, ⁴⁰Ca(α, α'), E=120 MeV; measured σ(Eα), αα-, αp-coin, σ(θα). ⁴⁰Ca, ²⁴Mg deduced levels, J, π, isoscalar giant resonance decay characteristics, α-branching ratios.

doi: 10.1016/0375-9474(85)90211-8
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1984ST10      Nucl.Phys. A420, 257 (1984)

W.A.Sterrenburg, S.Brandenburg, J.H.Van Dijk, A.G.Drentje, M.B.Greenfield, M.N.Harakeh, H.Riezebos, H.Sakai, W.Segeth, S.Y.Van Der Werf, A.Van Der Woude

Study of Isovector Charge-Exchange Excitations and Their Decay via the ¹⁶O(³He, tp) Reaction

NUCLEAR REACTIONS ¹⁶O(³He, t), E=81 MeV; measured σ(E(t), θ(t)), σ(E(t), θ(t), E(p), θ(p)). ¹⁶F deduced levels, widths, L, J, π, decay. DWBA analysis, microscopic form factors. Ta₂O₅ target.

doi: 10.1016/0375-9474(84)90442-1
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1984VA17      J.Phys.(Paris), Colloq.C4, 471 (1984); See 1984Va43

S.Y.van der Werf, S.Brandenburg, A.G.Drentje, P.Grasdijk, M.B.Greenfield, M.N.Harakeh, W.Segeth, W.A.Sterrenburg, A.van der Woude

Isovector ΔL = 1 Strength Observed in the (³He, t) Reaction on Self Conjugate Nuclei

1984VA43      J.Phys.(Paris), Colloq.C-4, 471 (1984)

S.Y.van der Werf, S.Brandenburg, A.G.Drentje, P.Grasdijk, M.B.Greenfield, M.N.Harakeh, W.Segeth, W.A.Sterrenburg, A.van der Woude

Isovector ΔL = 1 Strength Observed in the (³He, t) Reaction on Self Conjugate Nuclei

NUCLEAR REACTIONS ¹²C, ¹⁶O, ^24,26Mg, ²⁸Si, ⁴⁰Ca(³He, t), E=75, 81 MeV; measured σ(Et, θt), σ(θt). ¹²N, ¹⁶F, ²⁴Al, ²⁸P, ⁴⁰Sc deduced transition strengths. QMG/2 spectrograph.

1984WI04      Phys.Lett. 135B, 13 (1984)

H.Wienke, H.P.Blok, J.F.A.van Hienen, J.Blok, Y.Iwasaki, A.G.Drentje, W.A.Sterrenburg

The Role of Sequential Transfer in Unnatural-Parity Transitions in the ²⁰⁸Pb(p, t)²⁰⁶Pb Reaction

NUCLEAR REACTIONS ²⁰⁸Pb(p, t), E=20, 50.5 MeV; measured σ(θ); deduced reaction mechanism. ²⁰⁶Pb deduced levels, J, π. Zero-range coupled-reaction channels analysis.

doi: 10.1016/0370-2693(84)90443-X
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO0273.

1983BR21      Phys.Lett. 130B, 9 (1983)

S.Brandenburg, R.De Leo, A.G.Drentje, M.N.Harakeh, H.Sakai, A.van der Woude

Experimental Determination of Monopole Strength in ⁴⁰Ca between 10 and 20 MeV Excitation Energy

NUCLEAR REACTIONS ⁴⁰Ca(α, α'), (α, 2α), E=120 MeV; measured σ(θα'), σ(Eα', θ=0°), αα-coin, σ(θα₁, θα₂); deduced σ(total). ⁴⁰Ca deduced E0 transition strength distribution, EWSR.

doi: 10.1016/0370-2693(83)91052-3
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1983JA03      Nucl.Phys. A394, 39 (1983)

J.Janecke, E.H.L.Aarts, A.G.Drentje, M.N.Harakeh, C.Gaarde

Isobaric Analog States in Rare-Earth Nuclei Studied with the (³He, t) Charge Exchange Reaction at θ(L) = 0°

NUCLEAR REACTIONS ^{152,154,156,158,160}Gd, ^160,162Dy, ^{162,164,166,168,170}Er, ^{170,172,174,176}Yb, ^176,178,180Hf(³He, t), E=60.5 MeV; measured σ(E(t), θ=0°). ^{152,154,156,158,160}Tb, ^160,162Ho, ^{162,164,166,168,170}Tm, ^{170,172,174,176}Lu, ^176,178,180Ta deduced IAS, Γ, Coulomb displacement energies. Enriched targets, magnetic spectrometer.

doi: 10.1016/0375-9474(83)90160-4
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1983VA30      Z.Phys. A314, 1 (1983)

J.H.van Dijk, H.W.Wilschut, A.G.Drentje, A.van der Woude

Small Impact Parameter K-Shell Ionisation Probabilities and δ-Electron Spectra

NUCLEAR REACTIONS Pb(p, p'), E=15 MeV; Pb(α, α'), E=50 MeV; measured σ(Ep', θ=12°), σ(Eα', θ=12°), (K X-ray)p-, (K X-ray)α-coin; deduced K-shell ionization probabilities. High resolution magnetic spectrograph.

ATOMIC PHYSICS Pb(p, p'), E=15 MeV; Pb(α, α'), E=50 MeV; measured (K X-ray)p-, (K X-ray)α-coin; deduced K-shell ionization probabilities, (δ)-electron spectra. High resolution magnetic spectrograph.

1983ZW01      Phys.Lett. 125B, 123 (1983)

F.Zwarts, A.G.Drentje, M.N.Harakeh, A.van der Woude

The Isoscalar Quadrupole Strength Distribution above 10 MeV in ⁴⁰Ca

NUCLEAR REACTIONS ⁴⁰Ca(α, 2α), E=120 MeV; measured αα(θ) following ³⁶Ar ground state decay. ⁴⁰Ca deduced isoscalar quadrupole, E2 strength distribution, EWSR. Solid state counter, QMG/2 magnetic spectrograph, E-ΔE telescope.

doi: 10.1016/0370-2693(83)91250-9
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1982BR26      Phys.Rev.Lett. 49, 1687 (1982)

S.Brandenburg, R.De Leo, A.G.Drentje, M.N.Harakeh, H.Janszen, A.van der Woude

Fission Decay of the Isoscalar Giant Monopole Resonance in ²³⁸U

NUCLEAR REACTIONS ²³⁸U(α, α'F), E=120 MeV; measured fission (fragment)α'-coin, σ(Eα, fragment θ). ²³⁸U deduced giant monopole fission decay, Γ, E0 isoscalar EWSR. QMG/2 spectrograph, parallel plate avalanche detectors.

doi: 10.1103/PhysRevLett.49.1687
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1982ZW01      Phys.Rev. C25, 2139 (1982)

F.Zwarts, K.van der Borg, A.G.Drentje, M.N.Harakeh, W.A.Sterrenburg, A.van der Woude

Origin of the Forward-Backward Asymmetry in the Decay of the Giant Resonance Structures of ²⁴Mg and ⁴⁰Ca

NUCLEAR REACTIONS ²⁴Mg, ⁴⁰Ca(α, pα), (α, 2α), E=120 MeV; measured αp(θ), αα(θ), σ(Eα), σ(θ=0°)/σ(θ=180°). ²⁴Mg, ⁴⁰Ca deduced giant resonance decay characteristics.

doi: 10.1103/PhysRevC.25.2139
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1981GA08      Phys.Rev.Lett. 46, 902 (1981)

C.Gaarde, J.S.Larsen, A.G.Drentje, M.N.Harakeh, S.Y.van der Werf

Decay of the Giant Gamow-Teller Resonance in ²⁰⁸Bi

NUCLEAR REACTIONS ²⁰⁸Pb(³He, t), E=81 MeV; measured σ(Et), σ(θp, θt, Ep). ²⁰⁸Bi deduced IAS, Gamow-Teller resonance decay.

doi: 10.1103/PhysRevLett.46.902
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1981SA21      Phys.Lett. 103B, 309 (1981)

H.Sakai, R.K.Bhowmik, K.van Dijk, A.G.Drentje, M.N.Harakeh, Y.Iwasaki, R.H.Siemssen, S.Y.van der Werf, A.van der Woude

Gamma-Decay of the Deeply-Bound Hole States Populated in the ¹⁰²Pd(³He, α)¹⁰¹Pd Reaction at 70 MeV

NUCLEAR REACTIONS ¹⁰²Pd(³He, α), E=70 MeV; measured αγ(θ), Eα. ¹⁰¹Pd deduced g_9/2 hole strength, δ(M1/E2) for 9/2⁺ to 7/2⁺ transition, B(E2). High purity Ge, NaI(Tl) detectors, QMG/2 magnetic spectrograph.

doi: 10.1016/0370-2693(81)90230-6
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1981SO04      Phys.Rev. C24, 570 (1981)

F.Soga, P.H.Pile, R.D.Bent, M.C.Green, W.W.Jacobs, T.P.Sjoreen, T.E.Ward, A.G.Drentje

Energy Dependence of the Reaction ¹²C(p, π⁺)¹³C to Different Final States

NUCLEAR REACTIONS ¹²C(p, π⁺), E=156-200 MeV; measured σ(θ); deduced single-particle, two particle-one hole final state effects.

doi: 10.1103/PhysRevC.24.570
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1981VA18      Phys.Lett. 105B, 111 (1981)

S.Y.van der Werf, N.Blasi, S.Brandenburg, A.G.Drentje, M.N.Harakeh, W.A.Sterrenburg, B.Visscher, A.van der Woude, R.De Leo, H.Janszen

Fission Probability of the IAR in the Actinide Region Studied Via the (³He, tf) Reaction

NUCLEAR REACTIONS, Fission ²³²Th, ²³⁸U(³He, t), (³He, tF), E=81 MeV; measured σ(θt, Et), (fragment)t-coin. ²³²Pa, ²³⁸Np deduced IAR widths, total fission probabilities, spreading widths. Hydrodynamic, microscopic models.

doi: 10.1016/0370-2693(81)91001-7
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1981VE05      Nucl.Phys. A362, 189 (1981)

J.C.Vermeulen, A.G.Drentje, H.T.Fortune, L.W.Put, R.R.De Ruyter Van Steveninck, R.H.Siemssen, J.F.A.Van Hienen, H.Hasper

High-Resolution Study of Four-Nucleon Pickup Via the (d, ⁶Li) Reaction at Ed = 55 MeV on sd Shell Nuclei (I) . Even-A Nuclei

NUCLEAR REACTIONS ^24,26Mg, ²⁸Si(d, ⁶Li), E=55 MeV; measured σ(E(⁶Li), θ). ^20,22Ne, ²⁴Mg deduced levels, Sα, L, J, π. Magnetic spectrograph, enriched targets.

doi: 10.1016/0375-9474(81)90677-1
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO1821.

1981VE13      Nucl.Phys. A369, 82 (1981)

J.C.Vermeulen, A.G.Drentje, L.W.Put, R.R.De Ruyter Van Steveninck, J.F.A.Van Hienen, H.Hasper, H.T.Fortune

High-Resolution Study of Four-Nucleon Pickup via the (d, ⁶Li) Reaction at E(d) = 55 MeV on sd-Shell Nuclei (II). Odd-A Nuclei

NUCLEAR REACTIONS ²⁵Mg, ²⁷Al(d, ⁶Li), E=55 MeV; measured σ(E(⁶Li), θ). ²¹Ne, ²³Na deduced levels, Sα, L, J, π. Magnetic spectrograph, enriched ²⁵Mg target.

doi: 10.1016/0375-9474(81)90008-7
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO1814.

1980GA20      Nucl.Phys. A346, 497 (1980)

C.Gaarde, J.S.Larsen, A.G.Drentje, M.N.Harakeh, S.Y. Van Der Werf, A.Muller-Arnke

The ⁵⁴Fe(³He, t)⁵⁴Co Reaction at 70 MeV, Gamow-Teller Strength.

NUCLEAR REACTIONS ⁵⁴Fe(³He, t), E=70 MeV; measured σ(Et, θ). ⁵⁴Co deduced levels, J.π, Gamow-Teller strength distribution. Shell model, second-order, finite-range DWBA calculations.

doi: 10.1016/0375-9474(80)90482-0
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1980JA12      Phys.Lett. B94, 319 (1980)

W.W.Jacobs, A.G.Drentje, P.H.Pile, P.P.Singh, T.P.Sjoreen, S.E.Vigdor

Comparison of (d, p) and (p, π⁺) Reactions on ²⁸Si at Similar Momentum Transfer

NUCLEAR REACTIONS ²⁸Si(d, p), E=76 MeV; ²⁸Si(p, π⁺), E=191 MeV; measured σ(θ, Ep), σ(θ, E(π⁺)); deduced differences in reaction processes. ^12,13C levels deduced single neutron wave function components.

doi: 10.1016/0370-2693(80)90887-4
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1978BE06      Phys.Rev.Lett. 40, 635 (1978)

F.E.Bertrand, K.van der Borg, A.G.Drentje, M.N.Harakeh, J.van der Plicht, A.van der Woude

Giant Quadrupole Resonance in ^24,26Mg: A Comparison of Inelastic-Scattering and α-Capture Experiments

NUCLEAR REACTIONS ^24,26Mg(α, α'), E=120 MeV; measured σ(Eα'). ^24,26Mg deduced E2 strength in GQR.

doi: 10.1103/PhysRevLett.40.635
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1978FO32      Phys.Lett. 79B, 205 (1978)

H.T.Fortune, J.C.Vermeulen, A.Saha, A.G.Drentje, L.W.Put, R.R.de Ruyter van Steveninck, J.F.A.van Hienen

Configuration of 3.59 MeV 0⁺ State in ⁴⁴Ca

NUCLEAR REACTIONS ⁴⁸Ti(d, ⁶Li), E=55 MeV; measured σ(E(⁶Li), θ). ⁴⁴Ca deduced relative α-pickup S for 0+ states.

doi: 10.1016/0370-2693(78)90223-X
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1978LO04      Z.Phys. A286, 99 (1978)

H.Lohner, H.Eickhoff, D.Frekers, G.Gaul, K.Poppensieker, R.Santo, A.G.Drentje, L.W.Put

Investigation of Large Angle Structure in α-Scattering from Calcium Isotopes between E = 36-61 MeV

NUCLEAR REACTIONS ⁴⁰Ca(α, α), E=36.2, 39.6, 42.6, 49.5, 61.0 MeV; ⁴⁴Ca(α, α), E=36.2, 42.6, 49.5, 61.0 MeV; measured σ(θ).

Data from this article have been entered in the EXFOR database. For more information, access X4 datasetF0639.

1976HA27      Nucl.Phys. A265, 189 (1976); Erratum Nucl.Phys. A280, 500 (1977)

M.N.Harakeh, A.R.Arends, M.J.A.de Voigt, A.G.Drentje, S.Y.van der Werf, A.van der Woude

A Study of the Isoscalar Giant Quadrupole Resonance and Other Collective States in ¹⁶O Excited by Inelastic Alpha Scattering at Eα = 104 MeV

NUCLEAR REACTIONS ¹⁶O(α, α'), E=104 MeV; measured σ(θ). ¹⁶O deduced resonances, L, β, isoscalar quadrupole strength. DWBA, ICC, microscopic wave analysis.

doi: 10.1016/0375-9474(76)90349-3
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1976YA01      Phys.Rev. C13, 1376 (1976)

G.C.Yang, P.P.Singh, A.van der Woude, A.G.Drentje

Isoscalar Multipole Strength in ²⁴Mg Through Inelastic Alpha Scattering

NUCLEAR REACTIONS ²⁴Mg(α, α'), E=70 MeV; measured σ(Eα', θ). ²⁴Mg deduced quadrupole, octupole, hexadecapole strength. DWBA. Enriched targets.

doi: 10.1103/PhysRevC.13.1376
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1970DR02      Phys.Lett. 32B, 356 (1970)

A.G.Drentje, J.D.A.Roeders

Alpha-Particle Scattering from the 3⁺ Unnatural and the 4⁺ Natural Parity States in ²⁴Mg

NUCLEAR REACTIONS ²⁴Mg(α, α'), E=19-22 MeV; measured σ(E;θ); deduced reaction mechanism.

doi: 10.1016/0370-2693(70)90495-8
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetF0646.

1969RO34      Nuovo Cimento Lett. 2, 209 (1969)

J.D.A.Roeders, L.W.Put, A.G.Drentje, A.van der Woude

Energy-Dependent Coherence Width of ²⁸Si at Excitation Energies between 22 and 33 MeV

NUCLEAR REACTIONS ²⁴Mg(α, α), (α, α'), E=18-27 MeV; measured σ(E;θ). ²⁸Si deduced coherence width.

doi: 10.1007/BF02755748
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetF0694.