T. Coffey scite author profile

Tunnel diode oscillators have been used in many types of experiments that measure the properties of materials. We present the details of an apparatus that extend these tunnel diode techniques to measure the properties of materials in pulsed magnetic fields. In the most common version of this method, a sample is placed in the inductor of a small rf tank circuit powered by a tunnel diode and the conductivity, magnetization, or penetration depth is measured. We explain in this article how the sample and configuration of the radio frequency fields determine which property is measured. Our major innovations are to stabilize the tunnel diode oscillator during a magnet pulse by using compensated coils in the tank circuit and the development of two methods, one digital and one analog, to measure the frequency and amplitude shifts in the oscillator during the short (10 s of ms) magnet pulse. We illustrate the power of this new measurement method by showing preliminary results of the superconducting transition and the Shubnikov–de Haas effect in the organic conductor κ-(ET)2Cu(NCS)2. The Shubnikov–de Haas effect shows particularly high amplitude oscillations due to magnetic breakdown orbits.

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Repeated stimuli elicit diminished high-gamma electrocorticographic responses

Merzagora

Coffey

Sperling

et al. 2014

NeuroImage

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In the phenomenon of repetition suppression (RS), when a person views a stimulus, the neural activity involved in processing that item is relatively diminished if that stimulus had been previously viewed. Previous noninvasive imaging studies mapped the prevalence of RS for different stimulus types to identify brain regions involved in representing a range of cognitive information. However, these noninvasive findings are challenging to interpret because they do not provide information on how RS relates to the brain's electrophysiological activity. We examined the electrophysiological basis of RS directly using brain recordings from implanted electrocorticographic (ECoG) electrodes in neurosurgical patients. Patients performed a memory task during ECoG recording and we identified high-gamma signals (65–128 Hz) that distinguished the neuronal representation of specific memory items. We then compared the neural representation of each item between novel and repeated viewings. This revealed the presence of RS, in which the neuronal representation of a repeated item had a significantly decreased amplitude and duration compared with novel stimuli. Furthermore, the magnitude of RS was greatest for the stimuli that initially elicited the largest activation at each site. These results have implications for understanding the neural basis of RS and human memory by showing that individual cortical sites exhibit the largest RS for the stimuli that they most actively represent.

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Transition metal halide salts of 2-amino-3-methylpyridine: synthesis, crystal structures and magnetic properties of (3-MAP)2CuX4 [3-MAP=2-amino-3-methylpyridinium; X=Cl, Br]

Coffey

Landee

Robinson

et al. 2000

Inorganica Chimica Acta

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Bulk two-dimensional Pauli-limited superconductor

et al. 2010

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We present a nearly perfect Pauli-limited critical field phase diagram for the anisotropic organic superconductor α-(ET)2NH4(SCN)4 when the applied magnetic field is oriented parallel to the conducting layers. The critical fields (Hc 2 ) were found by use of penetration depth measurements. Because Hc 2 is Pauli-limited, the size of the superconducting energy gap can be calculated. The role of spin-orbit scattering and many-body effects play a role in explaining our measurements.

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Magnetic quantum oscillations in the normal state of YNi2B2C

Ignatchik

Coffey

Hagel

et al. 2005

Journal of Magnetism and Magnetic Materials

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T. Coffey

Measuring radio frequency properties of materials in pulsed magnetic fields with a tunnel diode oscillator

Repeated stimuli elicit diminished high-gamma electrocorticographic responses

Transition metal halide salts of 2-amino-3-methylpyridine: synthesis, crystal structures and magnetic properties of (3-MAP)2CuX4 [3-MAP=2-amino-3-methylpyridinium; X=Cl, Br]

Bulk two-dimensional Pauli-limited superconductor

Magnetic quantum oscillations in the normal state of YNi2B2C

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