T. C. Hsu scite author profile

We investigate whether the staggered-Aux phase (SFP) is realized in slightly doped phases of the Cu-0 high-T, superconductors. Using a mean-field solution of the t-J model, we calculate the size of circulating currents in the Cu02 planes. For realistic parameters we find nonzero currents when the doping 6 &0. 12. Taking into account structural details, we calculate the physical magnetic-field strength and the neutron-scattering cross section. The static field at the muon site varies between 0 and 100 G depending mainly on doping but with additional complications being the size of the Wannier functions, temperature, screening, localization, and the mean-field-approximation itself. These fields are not detected in muon-spin-relaxation experiments but cannot be ruled out both because of the aforementioned complications and because at low doping the muon is also affected by. residual quasistatic spin moments. Neutrons scattering off orbital moments of the SFP exhibit a Bragg peak at wave vector (m/a, a/a) even at nonzero doping; however, this peak is perhaps 70 times weaker than that produced by static spin moments in a fully Neel ordered phase and is therefore dificult to observe. The absence of quasistatic spin moments in our description conAicts with neutron experiments on lightly doped samples. The inelastic spin structure does, however, exhibit a split peak at wave vector (n/a,~/a) in qualitative agreement with neutron experiments on superconducting La&, sr Cu04 samples but additional structure along the (Q, O) and (O, Q~) directions has not been seen. The absence of magnetic fields when 5)0.12 is consistent with the limits set by the muon experiments on superconducting samples. We show that similar results are obtained using the Gutzwiller-projected SFP.

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Spin waves in the flux-phase description of theS=1/2 Heisenberg antiferromagnet

Hsu

1990

Phys. Rev. B

100

106

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Interlayer effects in high-Tc superconductors

Wheatley

Hsu

Anderson

1988

Nature

172

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T. C. Hsu

SU(2) gauge symmetry of the large-Ulimit of the Hubbard model

Resonating–valence-bond theory of phase transitions and superconductivity inLa2CuO4
Anderson
¹
,
Baskaran
²
,
Zou
³

et al. 1987
Phys. Rev. Lett.
890
6
197
1
View full text Add to dashboard Cite

Two observable features of the staggered-flux phase at nonzero doping

Spin waves in the flux-phase description of theS=1/2 Heisenberg antiferromagnet

Interlayer effects in high-Tc superconductors

Contact Info

Product

Resources

About

T. C. Hsu

SU(2) gauge symmetry of the large-Ulimit of the Hubbard model

Resonating–valence-bond theory of phase transitions and superconductivity inLa2CuO4Anderson1, Baskaran2, Zou3 et al. 1987Phys. Rev. Lett.89061971View full textAdd to dashboardCite

Two observable features of the staggered-flux phase at nonzero doping

Spin waves in the flux-phase description of theS=1/2 Heisenberg antiferromagnet

Interlayer effects in high-Tc superconductors

Contact Info

Product

Resources

About

Resonating–valence-bond theory of phase transitions and superconductivity inLa2CuO4
Anderson
¹
,
Baskaran
²
,
Zou
³

et al. 1987
Phys. Rev. Lett.
890
6
197
1
View full text Add to dashboard Cite