G. Dabbagh scite author profile

Symmetry and topology play key roles in the identification of phases of matter and their properties. Both concepts are central to understanding quantum Hall ferromagnets (QHFMs), two-dimensional electronic phases with spontaneously broken spin or pseudospin symmetry whose wavefunctions also have topological properties 1,2 . Domain walls between distinct broken symmetry QHFM phases are predicted to host gapless onedimensional (1D) modes that emerge due to a topological change of the underlying electronic wavefunctions at such interfaces. Although a variety of QHFMs have been identified in different materials 3-8 , probing interacting electronic modes at these domain walls has not yet been accomplished. Here we use a scanning tunneling microscope (STM) to directly visualize the spontaneous formation of boundary modes, within a sign-changing topological gap, at domain walls between different valley-polarized quantum Hall phases on the surface of bismuth. By changing the valley occupation and the corresponding number of modes at the domain wall, we can realize different regimes where the valleypolarized channels are either metallic or develop a spectroscopic gap. This behavior is a

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Conducting films of C60 and C70 by alkali-metal doping

Haddon

Hebard

Rosseinsky

et al. 1991

Nature

1,063

341

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New Phases of C ₆₀ Synthesized at High Pressure

Iwasa

Arima

Fleming

et al. 1994

Science

678

312

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The fullerene C(60) can be converted into two different structures by high pressure and temperature. They are metastable and revert to pristine C(60) on reheating to 300 degrees C at ambient pressure. For synthesis temperatures between 300 degrees and 400 degrees C and pressures of 5 gigapascals, a nominal face-centered-cubic structure is produced with a lattice parameter a(o) = 13.6 angstroms. When treated at 500 degrees to 800 degrees C at the same pressure, C(60) transforms into a rhombohedral structure with hexagonal lattice parameters of a(o) = 9.22 angstroms and c(o) = 24.6 angstroms. The intermolecular distance is small enough that a chemical bond can form, in accord with the reduced solubility of the pressure-induced phases. Infrared, Raman, and nuclear magnetic resonance studies show a drastic reduction of icosahedral symmetry, as might occur if the C(60) molecules are linked.

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Molecular dynamics and the phase transition in solidC60

et al. 1991

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Cu spin dynamics and superconducting precursor effects in planes aboveTcinYBa2
Warren
¹
,
Walstedt
²
,
Brennert
³

et al. 1989
Phys. Rev. Lett.
453
14
215
0
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Spin dynamics at planar sites in oxygen-deficient YBa2Cu306+x have been investigated by nuclear spin-lattice relaxation measurements using ^^'^^Cu nuclear quadrupole resonance and ^^Y NMR. A sharp decrease of ^^Cu nuclear relaxation below^ 100 K in YBaiCusOe? suggests the possible onset of spin pairing in individual planes well above the transition to three-dimensional bulk superconductivity. Comparison of the relaxation rates for the 60-K superconductor YBa2Cu306.7 with those of YBa2Cu307.o in the range 100-300 K shows that the planar Cu(2) spin dynamics are strongly affected by changes in carrier concentration.

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G. Dabbagh

Optically Pumped NMR Evidence for Finite-Size Skyrmions in GaAs Quantum Wells near Landau Level Fillingν=1

Conducting films of C60 and C70 by alkali-metal doping

New Phases of C ₆₀ Synthesized at High Pressure

Molecular dynamics and the phase transition in solidC60

Cu spin dynamics and superconducting precursor effects in planes aboveTcinYBa2
Warren
¹
,
Walstedt
²
,
Brennert
³

et al. 1989
Phys. Rev. Lett.
453
14
215
0
View full text Add to dashboard Cite

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Product

Resources

About

G. Dabbagh

Optically Pumped NMR Evidence for Finite-Size Skyrmions in GaAs Quantum Wells near Landau Level Fillingν=1

Conducting films of C60 and C70 by alkali-metal doping

New Phases of C 60 Synthesized at High Pressure

Molecular dynamics and the phase transition in solidC60

Cu spin dynamics and superconducting precursor effects in planes aboveTcinYBa2Warren1, Walstedt2, Brennert3 et al. 1989Phys. Rev. Lett.453142150View full textAdd to dashboardCite

Contact Info

Product

Resources

About

New Phases of C ₆₀ Synthesized at High Pressure

Cu spin dynamics and superconducting precursor effects in planes aboveTcinYBa2
Warren
¹
,
Walstedt
²
,
Brennert
³

et al. 1989
Phys. Rev. Lett.
453
14
215
0
View full text Add to dashboard Cite