K. Shastry scite author profile

Auger processes involving the filling of holes in the valence band are thought to make important contributions to the low-energy photoelectron and secondary electron spectrum from many solids. However, measurements of the energy spectrum and the efficiency with which electrons are emitted in this process remain elusive due to a large unrelated background resulting from primary beam-induced secondary electrons. Here, we report the direct measurement of the energy spectra of electrons emitted from single layer graphene as a result of the decay of deep holes in the valence band. These measurements were made possible by eliminating competing backgrounds by employing low-energy positrons (<1.25 eV) to create valence-band holes by annihilation. Our experimental results, supported by theoretical calculations, indicate that between 80 and 100% of the deep valence-band holes in graphene are filled via an Auger transition.

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Geodesic curve computations on surfaces

Kumar

Srinivasan

Holla

et al. 2003

Computer Aided Geometric Design

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Time of flight spectrometer for background-free positron annihilation induced Auger electron spectroscopy

Mukherjee

Shastry

Anto

et al. 2016

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We describe a novel spectrometer designed for positron annihilation induced Auger electron spectroscopy employing a time-of-flight spectrometer. The spectrometer's new configuration enables us to implant monoenergetic positrons with kinetic energies as low as 1.5 eV on the sample while simultaneously allowing for the detection of electrons emitted from the sample surface at kinetic energies ranging from ∼500 eV to 0 eV. The spectrometer's unique characteristics made it possible to perform (a) first experiments demonstrating the direct transition of a positron from an unbound scattering state to a bound surface state and (b) the first experiments demonstrating that Auger electron spectra can be obtained down to 0 eV without the beam induced secondary electron background obscuring the low energy part of the spectra. Data are presented which show alternative means of estimating positron surface state binding energy and background-free Auger spectra.

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Offset of curves on tessellated surfaces

Holla

Shastry

Prakash

2003

Computer-Aided Design

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Positron surface state as a spectroscopic probe for characterizing surfaces of topological insulator materials

et al. 2016

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Topological insulators are attracting considerable interest due to their potential for technological applications and as platforms for exploring wide-ranging fundamental science questions. In order to exploit, fine-tune, control and manipulate the topological surface states, spectroscopic tools which can effectively probe their properties are of key importance. Here, we demonstrate that positrons provide a sensitive probe for topological states, and that the associated annihilation spectrum provides a new technique for characterizing these states. Firm experimental evidence for the existence of a positron surface state near Bi2Te2Se with a binding energy of E b = 2.7 ± 0.2 eV is presented, and is confirmed by first-principles calculations. Additionally, the simulations predict a significant signal originating from annihilation with the topological surface states and shows the feasibility to detect their spin-texture through the use of spin-polarized positron beams.

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K. Shastry

Auger electron emission initiated by the creation of valence-band holes in graphene by positron annihilation

Geodesic curve computations on surfaces

Time of flight spectrometer for background-free positron annihilation induced Auger electron spectroscopy

Offset of curves on tessellated surfaces

Positron surface state as a spectroscopic probe for characterizing surfaces of topological insulator materials

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