J. Oostens scite author profile

Microscopic aspects of magnetism and superconductivity have been studied in the heavy-fermion superconducting alloy systems (U,Th)Be» and (U,Th)Pt3 using the technique of positive-muon (p ) spin rotation and relaxation (pSR). In U& Th Be», x =0.033, a striking increase of zero-field Kubo-Toyabe relaxation rate o. KT is observed below the temperature T,2-0.4 K at which a second phase transition occurs in the superconducting state. This jump is firm evidence for the onset of weak static magnetism below T,&. The observed increase of -1.5 Oe in the p+ local field corresponds to an effective moment of 10 -10 pz/U atom. The p+ Knight shift K" in the normal states of U& Th, Be», x =0 and 0.033, is proportional to the bulk susceptibility and yields a transferred f-spin-p, " hyperfine field of -1.99+0.12 kOe/ps. In the superconducting states of U&, Th Be», x =0, 0.01, and 0.033, a large reduction of the magnitude of K" is observed for x =0 but not for x =0.033, and an intermediate reduction is found for x =0.01. This behavior suggests (1) spin-singlet pairing in undoped UBe», and (2) conventional reduction of the spin susceptibility suppression in (U,Th)Be» by spin-orbit scattering from Th impurities. In undoped UPt3 small increases of a&T and the transverse-field Gaussian relaxation rate o. G below -6 K are again evidence for the onset of weak static magnetism similar to that found in (U,Th)Be». Recent spin-polarized neutron scattering studies of normal-state UPt3 have observed a commensurate antiferromagnetic (AF) structure with a sublattice magnetization of -10 pz/U atom, in rough agreement with the pSR results. For U& Th Pt3, x =0. 05, zero-field p+ precession frequencies below 6.5 K indicate an AF structure with a considerably larger moment (-0.6 pz/U atom). The average p+ Knight shift in the normal state of undoped UPt3 is much smaller than in UBe», which suggests multiple p+ stopping sites with hyperfine couplings of opposite signs.

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Muon spin rotation and magnetic order in the heavy-fermion compoundURu2Si2

Cooke

Heffner

et al. 1988

Phys. Rev. B

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Muon Knight Shift in the Heavy-Fermion SuperconductorsU1−xThxBe
Heffner
¹
,
Cooke
²
,
Fisk
³

et al. 1986
Phys. Rev. Lett.
45
1
8
0
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%e report the first Knight-shift studies of the heavy-fermion superconducting state. In 5 kOe the Knight shift of muons in superconducting Ui "Th"Bei3 remains near the normal-state value for x =0. 033, but shows an unexpected strong decrease for x-0. If the pairing is of odd parity, this decrease suggests that the anisotropic order parameter is pinned to the lattice. The qualitatively different behavior for x=0.033 reflects either spin-orbit scattering by Th doping or a change of pairing symmetry.

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3He production in 4He fragmentation on protons at 6.85 GeV/c

et al. 1977

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J. Oostens

Experimental study and baryonic exchange interpretation of the reactionH2(d, n)
Bizard
¹
,
Laville
²
,
Brun
³

et al. 1980
Phys. Rev. C
25
2
42
0
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Muon spin rotation in the magnetic and superconducting ground states of (U,Th)Be13and (U,Th)Pt3<

Muon spin rotation and magnetic order in the heavy-fermion compoundURu2Si2

Muon Knight Shift in the Heavy-Fermion SuperconductorsU1−xThxBe
Heffner
¹
,
Cooke
²
,
Fisk
³

et al. 1986
Phys. Rev. Lett.
45
1
8
0
View full text Add to dashboard Cite

3He production in 4He fragmentation on protons at 6.85 GeV/c

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J. Oostens

Experimental study and baryonic exchange interpretation of the reactionH2(d, n)Bizard1, Laville2, Brun3 et al. 1980Phys. Rev. C252420View full textAdd to dashboardCite

Muon spin rotation in the magnetic and superconducting ground states of (U,Th)Be13and (U,Th)Pt3<

Muon spin rotation and magnetic order in the heavy-fermion compoundURu2Si2

Muon Knight Shift in the Heavy-Fermion SuperconductorsU1−xThxBeHeffner1, Cooke2, Fisk3 et al. 1986Phys. Rev. Lett.45180View full textAdd to dashboardCite

3He production in 4He fragmentation on protons at 6.85 GeV/c

Contact Info

Product

Resources

About

Experimental study and baryonic exchange interpretation of the reactionH2(d, n)
Bizard
¹
,
Laville
²
,
Brun
³

et al. 1980
Phys. Rev. C
25
2
42
0
View full text Add to dashboard Cite

Muon Knight Shift in the Heavy-Fermion SuperconductorsU1−xThxBe
Heffner
¹
,
Cooke
²
,
Fisk
³

et al. 1986
Phys. Rev. Lett.
45
1
8
0
View full text Add to dashboard Cite