Robin Perry scite author profile

Many exotic compounds, such as cuprate superconductors and heavy fermion materials, exhibit a linear in temperature (T) resistivity, the origin of which is not well understood. We found that the resistivity of the quantum critical metal Sr(3)Ru(2)O(7) is also T-linear at the critical magnetic field of 7.9 T. Using the precise existing data for the Fermi surface topography and quasiparticle velocities of Sr(3)Ru(2)O(7), we show that in the region of the T-linear resistivity, the scattering rate per kelvin is well approximated by the ratio of the Boltzmann constant to the Planck constant divided by 2π. Extending the analysis to a number of other materials reveals similar results in the T-linear region, in spite of large differences in the microscopic origins of the scattering.

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Magnetic Field-Tuned Quantum Criticality in the Metallic Ruthenate Sr ₃ Ru ₂ O ₇

Grigera

Perry

Schofield

et al. 2001

Science

531

527

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The concept of quantum criticality is proving to be central to attempts to understand the physics of strongly correlated electrons. Here, we argue that observations on the itinerant metamagnet Sr3Ru2O7 represent good evidence for a new class of quantum critical point, arising when the critical end point terminating a line of first-order transitions is depressed toward zero temperature. This is of interest both in its own right and because of the convenience of having a quantum critical point for which the tuning parameter is the magnetic field. The relationship between the resultant critical fluctuations and novel behavior very near the critical field is discussed.

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Formation of a Nematic Fluid at High Fields in Sr ₃ Ru ₂ O ₇

Borzi

Grigera

Farrell

et al. 2007

Science

455

471

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In principle, a complex assembly of strongly interacting electrons can self-organize into a wide variety of collective states, but relatively few such states have been identified in practice. We report that, in the close vicinity of a metamagnetic quantum critical point, high-purity strontium ruthenate Sr3Ru2O7 possesses a large magnetoresistive anisotropy, consistent with the existence of an electronic nematic fluid. We discuss a striking phenomenological similarity between our observations and those made in high-purity two-dimensional electron fluids in gallium arsenide devices.

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Robin Perry

Similarity of Scattering Rates in Metals Showing T -Linear Resistivity

Magnetic Field-Tuned Quantum Criticality in the Metallic Ruthenate Sr ₃ Ru ₂ O ₇

Formation of a Nematic Fluid at High Fields in Sr ₃ Ru ₂ O ₇

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Robin Perry

Similarity of Scattering Rates in Metals Showing T -Linear Resistivity

Magnetic Field-Tuned Quantum Criticality in the Metallic Ruthenate Sr 3 Ru 2 O 7

Formation of a Nematic Fluid at High Fields in Sr 3 Ru 2 O 7

Contact Info

Product

Resources

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Magnetic Field-Tuned Quantum Criticality in the Metallic Ruthenate Sr ₃ Ru ₂ O ₇

Formation of a Nematic Fluid at High Fields in Sr ₃ Ru ₂ O ₇