Search

Your search keyword '"Pickett, Matthew D."' showing total 113 results
Start Over Author "Pickett, Matthew D."
113 results on '"Pickett, Matthew D."'

1. The phase transition in VO2 probed using x-ray, visible and infrared radiations

Author

Kumar, Suhas, Strachan, John Paul, Kilcoyne, A. L. David, Tyliszczak, Tolek, Pickett, Matthew D., Santori, Charles, Gibson, Gary, and Williams, R. Stanley

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Vanadium dioxide (VO2) is a model system that has been used to understand closely-occurring multiband electronic (Mott) and structural (Peierls) transitions for over half a century due to continued scientific and technological interests. Among the many techniques used to study VO2, the most frequently used involve electromagnetic radiation as a probe. Understanding of the distinct physical information provided by different probing radiations is incomplete, mostly owing to the complicated nature of the phase transitions. Here we use transmission of spatially averaged infrared ({\lambda}=1500 nm) and visible ({\lambda}=500 nm) radiations followed by spectroscopy and nanoscale imaging using x-rays ({\lambda}=2.25-2.38 nm) to probe the same VO2 sample while controlling the ambient temperature across its hysteretic phase transitions and monitoring its electrical resistance. We directly observed nanoscale puddles of distinct electronic and structural compositions during the transition. The two main results are that, during both heating and cooling, the transition of infrared and visible transmission occur at significantly lower temperatures than the Mott transition; and the electronic (Mott) transition occurs before the structural (Peierls) transition in temperature. We use our data to provide insights into possible microphysical origins of the different transition characteristics. We highlight that it is important to understand these effects because small changes in the nature of the probe can yield quantitatively, and even qualitatively, different results when applied to a non-trivial multiband phase transition. Our results guide more judicious use of probe type and interpretation of the resulting data., Comment: updated DOI and citation information

Published
2015
Full Text
View/download PDF

2. Sequential Electronic and Structural Transitions in VO2 Observed Using X-ray Absorption Spectromicroscopy

Author

Kumar, Suhas, Strachan, John Paul, Pickett, Matthew D., Bratkovsky, Alexander, Nishi, Yoshio, and Williams, R. Stanley

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

The popular dual electronic (Mott) and structural (Peierls) transitions in VO2 are explored using x-ray absorption spectromicroscopy with high spatial and spectral resolutions. It is found that during both heating and cooling, the electronic transition always precedes the structural Peierls transition. Between the two transitions, there are intermediate states that are spectrally isolated here., Comment: reordered sections

Published
2015
Full Text
View/download PDF

3. Local Temperature Redistribution and Structural Transition During Joule-Heating-Driven Conductance Switching in VO2

Author

Kumar, Suhas, Pickett, Matthew D., Strachan, John Paul, Gibson, Gary, Nishi, Yoshio, and Williams, R. Stanley

Subjects
Condensed Matter - Materials Science
Abstract

Joule-heating induced conductance-switching is studied in VO2, a Mott insulator. Complementary in-situ techniques including optical characterization, blackbody microscopy, scanning transmission x-ray microscopy (STXM) and numerical simulations are used. Abrupt redistribution in local temperature is shown to occur upon conductance-switching along with a structural phase transition, at the same current.

Published
2015
Full Text
View/download PDF

5. The phase transition in VO2 probed using x-ray, visible and infrared radiations

Author

Kumar, Suhas, Strachan, John Paul, Kilcoyne, AL David, Tyliszczak, Tolek, Pickett, Matthew D, Santori, Charles, Gibson, Gary, and Williams, R Stanley

Subjects
Physical Sciences, Engineering, Technology, Applied Physics
Abstract

Vanadium dioxide (VO2) is a model system that has been used to understand closely occurring multiband electronic (Mott) and structural (Peierls) transitions for over half a century due to continued scientific and technological interests. Among the many techniques used to study VO2, the most frequently used involve electromagnetic radiation as a probe. Understanding of the distinct physical information provided by different probing radiations is incomplete, mostly owing to the complicated nature of the phase transitions. Here, we use transmission of spatially averaged infrared (λ = 1.5 μm) and visible (λ = 500 nm) radiations followed by spectroscopy and nanoscale imaging using x-rays (λ = 2.25-2.38 nm) to probe the same VO2 sample while controlling the ambient temperature across its hysteretic phase transitions and monitoring its electrical resistance. We directly observed nanoscale puddles of distinct electronic and structural compositions during the transition. The two main results are that, during both heating and cooling, the transition of infrared and visible transmission occurs at significantly lower temperatures than the Mott transition, and the electronic (Mott) transition occurs before the structural (Peierls) transition in temperature. We use our data to provide insights into possible microphysical origins of the different transition characteristics. We highlight that it is important to understand these effects because small changes in the nature of the probe can yield quantitatively, and even qualitatively, different results when applied to a non-trivial multiband phase transition. Our results guide more judicious use of probe type and interpretation of the resulting data.

Published
2016

6. Blending of nanoscale and microscale in uniform large-area sculptured thin-film architectures

Author

Horn, Mark W., Pickett, Matthew D., Messier, Russell, and Lakhtakia, Akhlesh

Subjects
Physics - Optics, Condensed Matter - Materials Science
Abstract

The combination of large thickness ($>3$ $\mu$m), large--area uniformity (75 mm diameter), high growth rate (up to 0.4 $\mu$m/min) in assemblies of complex--shaped nanowires on lithographically defined patterns has been achieved for the first time. The nanoscale and the microscale have thus been blended together in sculptured thin films with transverse architectures. SiO$_x$ ($x\approx 2$) nanowires were grown by electron--beam evaporation onto silicon substrates both with and without photoresist lines (1--D arrays) and checkerboard (2--D arrays) patterns. Atomic self--shadowing due to oblique--angle deposition enables the nanowires to grow continuously, to change direction abruptly, and to maintain constant cross--sectional diameter. The selective growth of nanowire assemblies on the top surfaces of both 1--D and 2--D arrays can be understood and predicted using simple geometrical shadowing equations., Comment: 17 pages, 9 figures

Published
2003
Full Text
View/download PDF

15. Electrical transport and thermometry of electroformed titanium dioxide memristive switches.

Author

Borghetti, Julien, Strukov, Dmitri B., Pickett, Matthew D., Yang, J. Joshua, Stewart, Duncan R., and Williams, R. Stanley

Subjects
LIQUEFIED gases, TITANIUM dioxide, ELECTROCHEMISTRY, ELECTROFORMING, INDUSTRIAL chemistry
Abstract

We investigated the electrical transport of electroformed titanium dioxide memristive switches from liquid helium to room temperatures in order to better understand their internal states. After electroforming, we observed a continuous transition between two distinct limiting behaviors: a nearly Ohmic “ON”-state and an “OFF”-state characterized by conduction through a barrier. We interpret our data in terms of a model in which the electroforming step creates a conducting channel that does not completely bridge the metal contacts on the titanium dioxide film. The switching then occurs as a result of voltage-induced changes in the oxygen vacancy concentration in the gap between the tip of the channel and the adjacent metal contact. We used the metallic resistivity of the conduction channel as an in situ thermometer to measure the local device temperature, thus revealing an important implicit state variable. [ABSTRACT FROM AUTHOR]

Published
2009
Full Text
View/download PDF

16. Switching dynamics in titanium dioxide memristive devices.

Author

Pickett, Matthew D., Strukov, Dmitri B., Borghetti, Julien L., Yang, J. Joshua, Snider, Gregory S., Stewart, Duncan R., and Williams, R. Stanley

Subjects
*ELECTROMAGNETIC induction, *SEMICONDUCTOR doping, *HYSTERESIS loop, *METALLIC oxides, *TITANIUM dioxide, *NANOELECTRONICS, *NANOELECTROMECHANICAL systems, *DIELECTRICS
Abstract

Memristive devices are promising components for nanoelectronics with applications in nonvolatile memory and storage, defect-tolerant circuitry, and neuromorphic computing. Bipolar resistive switches based on metal oxides such as TiO2 have been identified as memristive devices primarily based on the “pinched hysteresis loop” that is observed in their current-voltage (i-v) characteristics. Here we show that the mathematical definition of a memristive device provides the framework for understanding the physical processes involved in bipolar switching and also yields formulas that can be used to compute and predict important electrical and dynamical properties of the device. We applied an electrical characterization and state-evolution procedure in order to capture the switching dynamics of a device and correlate the response with models for the drift diffusion of ionized dopants (vacancies) in the oxide film. The analysis revealed a notable property of nonlinear memristors: the energy required to switch a metal-oxide device decreases exponentially with increasing applied current. [ABSTRACT FROM AUTHOR]

Published
2009
Full Text
View/download PDF

17. Synchrotron-based spectrally-resolved X-ray beam induced current : a technique to quantify the effect of metal-rich precipitates on minority carrier diffusion length in multicrystalline silicon

Author

Buonassisi, Tonio, Istratov, Andrei A., Pickett, Matthew D., Marcus, Matthew A., Hahn, Giso, Riepe, Stephan, Isenberg, Jörg, Warta, Wilhelm, Willeke, Gerd, and Ciszek, Ted F.

Subjects
ddc:530, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries)
Abstract

published

Published
2005

23. The phase transition in VO2 probed using x-ray, visible and infrared radiations.

Author

Kumar, Suhas, Strachan, John Paul, David Kilcoyne, A. L., Tyliszczak, Tolek, Pickett, Matthew D., Santori, Charles, Gibson, Gary, and Williams, R. Stanley

Subjects
VANADIUM dioxide, METAL-insulator transitions, INFRARED radiation, X-rays, ELECTROMAGNETIC radiation
Abstract

Vanadium dioxide (VO2) is a model system that has been used to understand closely occurring multiband electronic (Mott) and structural (Peierls) transitions for over half a century due to continued scientific and technological interests. Among the many techniques used to study VO2, the most frequently used involve electromagnetic radiation as a probe. Understanding of the distinct physical information provided by different probing radiations is incomplete, mostly owing to the complicated nature of the phase transitions. Here, we use transmission of spatially averaged infrared (λ=1.5 µm) and visible (λ=500 nm) radiations followed by spectroscopy and nanoscale imaging using x-rays (λ=2.25-2.38 nm) to probe the same VO2 sample while controlling the ambient temperature across its hysteretic phase transitions and monitoring its electrical resistance. We directly observed nanoscale puddles of distinct electronic and structural compositions during the transition. The two main results are that, during both heating and cooling, the transition of infrared and visible transmission occurs at significantly lower temperatures than the Mott transition, and the electronic (Mott) transition occurs before the structural (Peierls) transition in temperature. We use our data to provide insights into possible microphysical origins of the different transition characteristics. We highlight that it is important to understand these effects because small changes in the nature of the probe can yield quantitatively, and even qualitatively, different results when applied to a non-trivial multiband phase transition. Our results guide more judicious use of probe type and interpretation of the resulting data. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

25. Oxide based memristive devices

Author

Yang, J. Joshua, primary, Zhang, M.-X., additional, Miao, Feng, additional, Strachan, John Paul, additional, Torrezan, Antonio C., additional, Pickett, Matthew D., additional, Yi, Wei, additional, Choi, Byung Joon, additional, Nickel, Janice H., additional, Medeiros-Ribeiro, Gilberto, additional, and Williams, R. Stanley, additional

Published
2012
Full Text
View/download PDF

27. Engineering nonlinearity into memristors for passive crossbar applications

Author

Joshua Yang, J., primary, Zhang, M.-X., additional, Pickett, Matthew D., additional, Miao, Feng, additional, Paul Strachan, John, additional, Li, Wen-Di, additional, Yi, Wei, additional, Ohlberg, Douglas A. A., additional, Joon Choi, Byung, additional, Wu, Wei, additional, Nickel, Janice H., additional, Medeiros-Ribeiro, Gilberto, additional, and Stanley Williams, R., additional

Published
2012
Full Text
View/download PDF

35. High switching endurance in TaOx memristive devices

Author

Yang, J. Joshua, primary, Zhang, M.-X., additional, Strachan, John Paul, additional, Miao, Feng, additional, Pickett, Matthew D., additional, Kelley, Ronald D., additional, Medeiros-Ribeiro, G., additional, and Williams, R. Stanley, additional

Published
2010
Full Text
View/download PDF

43. Interactions Between Metals and Different Grain Boundary Types and Their Impact on Multicrystalline Silicon Device Performance

Author

Buonassisi, Tonio, primary, Pickett, Matthew D., additional, Istratov, Andrei A., additional, Sauar, Erik, additional, Lommasson, Timothy C., additional, Marstein, Erik, additional, Pernau, Thomas, additional, Clark, R. F., additional, Narayanan, S., additional, Heald, Steven M., additional, and Weber, Eicke R., additional

Published
2006
Full Text
View/download PDF

48. A scalable neuristor built with Mott memristors.

Author

Pickett, Matthew D., Medeiros-Ribeiro, Gilberto, and Williams, R. Stanley

Subjects
*MEMRISTORS, *METAL oxide semiconductors, *AXONS, *SIMULATION software, *NERVOUS system, *FIELD-effect transistors, *PHASE transitions
Abstract

The Hodgkin-Huxley model for action potential generation in biological axons is central for understanding the computational capability of the nervous system and emulating its functionality. Owing to the historical success of silicon complementary metal-oxide-semiconductors, spike-based computing is primarily confined to software simulations and specialized analogue metal-oxide-semiconductor field-effect transistor circuits. However, there is interest in constructing physical systems that emulate biological functionality more directly, with the goal of improving efficiency and scale. The neuristor was proposed as an electronic device with properties similar to the Hodgkin-Huxley axon, but previous implementations were not scalable. Here we demonstrate a neuristor built using two nanoscale Mott memristors, dynamical devices that exhibit transient memory and negative differential resistance arising from an insulating-to-conducting phase transition driven by Joule heating. This neuristor exhibits the important neural functions of all-or-nothing spiking with signal gain and diverse periodic spiking, using materials and structures that are amenable to extremely high-density integration with or without silicon transistors. [ABSTRACT FROM AUTHOR]

Published
2013
Full Text
View/download PDF

49. High switching endurance in TaOx memristive devices.

Author

Yang, J. Joshua, Zhang, M.-X., Strachan, John Paul, Miao, Feng, Pickett, Matthew D., Kelley, Ronald D., Medeiros-Ribeiro, G., and Williams, R. Stanley

Subjects
TITANIUM dioxide, SWITCHING circuits, METALLIC oxides, THERMODYNAMICS, CHEMICAL kinetics, SOLID state physics, ELECTRIC resistors
Abstract

We demonstrate over 1×1010 open-loop switching cycles from a simple memristive device stack of Pt/TaOx/Ta. We compare this system to a similar device stack based on titanium oxides to obtain insight into the solid-state thermodynamic and kinetic factors that influence endurance in metal-oxide memristors. [ABSTRACT FROM AUTHOR]

Published
2010
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results