M.E. Suddards scite author profile

M.E. Suddards

4Publications

68Citation Statements Received

62Citation Statements Given

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University of Nottingham

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Scanning capacitance imaging of compressible and incompressible quantum Hall effect edge strips

et al. 2012

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We use dynamic scanning capacitance microscopy to image compressible and incompressible strips at the edge of a Hall bar in a twodimensional electron gas (2DEG) in the quantum Hall effect (QHE) regime. This method gives access to the complex local conductance, G ts , between a sharp metallic tip scanned across the sample surface and ground, comprising the complex sample conductance. Near integer filling factors we observe a bright stripe along the sample edge in the imaginary part of G ts . The simultaneously recorded real part exhibits a sharp peak at the boundary between the sample interior and the stripe observed in the imaginary part. The features are periodic in the inverse magnetic field and consistent with compressible and incompressible strips forming at the sample edge. For currents larger than the critical current of the QHE break-down the stripes vanish sharply and a homogeneous signal is recovered, similar to zero magnetic field. Our experiments directly illustrate the formation and a variety of properties of the conceptually important QHE edge states at the physical edge of a 2DEG.

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Low-temperature and high magnetic field dynamic scanning capacitance microscope

Baumgärtner

Suddards

Mellor

2009

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We demonstrate a dynamic scanning capacitance microscope (DSCM) that operates at large bandwidths, cryogenic temperatures, and high magnetic fields. The setup is based on a noncontact atomic force microscope (AFM) with a quartz tuning fork sensor for the nonoptical excitation and readout in topography, force, and dissipation measurements. The metallic AFM tip forms part of a rf resonator with a transmission characteristics modulated by the sample properties and the tip-sample capacitance. The tip motion gives rise to a modulation of the capacitance at the frequency of the AFM sensor and its harmonics, which can be recorded simultaneously with the AFM data. We use an intuitive model to describe and analyze the resonator transmission and show that for most experimental conditions it is proportional to the complex tip-sample conductance, which depends on both the tip-sample capacitance and the sample resistivity. We demonstrate the performance of the DSCM on metal disks buried under a polymer layer and we discuss images recorded on a two-dimensional electron gas in the quantum Hall effect regime, i.e. at cryogenic temperatures and in high magnetic fields, where we directly image the formation of compressible stripes at the physical edge of the sample.

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Scanning capacitance imaging of compressible quantum Hall effect stripes formed at the sample edge and at a potential fluctuation

Suddards

Baumgärtner

Mellor

et al. 2008

Physica E: Low-dimensional Systems and Nanostructures

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Application of quartz tuning forks in multiple-breath-helium washout measurement

Wang

Suddards

Owers‐Bradley

2008

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M.E. Suddards

Scanning capacitance imaging of compressible and incompressible quantum Hall effect edge strips

Low-temperature and high magnetic field dynamic scanning capacitance microscope

Scanning capacitance imaging of compressible quantum Hall effect stripes formed at the sample edge and at a potential fluctuation

Application of quartz tuning forks in multiple-breath-helium washout measurement

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