Your search keyword '"Teslich, Nick E."' showing total 34 results

1. Phase-Slip Lines and Anomalous Josephson Effects in a Tungsten Clusters-Topological Insulator Microbridge

Author

Qu, Dong-Xia, Cuozzo, Joseph J., Teslich, Nick E., Ray, Keith G., Dai, Zurong, Li, Tian T., Chapline, George F., DuBois, Jonathan L., and Rossi, Enrico

Subjects

Condensed Matter - Superconductivity

Abstract

Superconducting topological systems formed by a strong 3D topological insulator (TI) in proximity to a conventional $s$-wave superconductor (SC) have been intensely studied as they may host Majorana zero modes. However, there are limited experimental realizations of TI-SC systems in which robust superconducting pairing is induced on the surface states of the TI and a topological superconducting state is established. Here, we fabricate a novel TI-SC system by depositing, via focused ion beam, tungsten (W) nanoscale clusters on the surface of TI Bi$_{0.91}$Sb$_{0.09}$. We find that the resulting heterostructure supports phase-slip lines that act as effective Josephson junctions. We probe the response of the system to microwave radiation. We find that for some ac frequencies, and powers, the resulting Shapiro steps' structure of the voltage-current characteristic exhibits a missing first step and an unexpectedly wide second Shapiro step. The theoretical analysis of the measurements shows that the unusual Shapiro response arises from the interplay between a static Josephson junction and a dynamic one, and allows us to identify the conditions under which the missing first step can be attributed to the topological nature of the Josephson junctions formed by the phase-slip lines. Our results suggest a new approach to induce superconductivity in a TI, a novel route to realizing highly-transparent topological Josephson junctions, and show how the response of superconducting systems to microwave radiation can be used to infer the dynamics of phase-slip lines.

Published

2022

2. Observation of a metastable intermediate during solid-solid phase transformation in response to rapid compression

Author

Armstrong, Michael R., Radousky, Harry B., Austin, Ryan A., Stavrou, Elissaios, Zong, Hongxiang, Ackland, Graeme J., Brown, Shaughnessy, Crowhurst, Jonathan C., Gleason, Arianna E., Granados, Eduardo, Grivickas, Paulius, Holtgrewe, Nicholas, Lee, Hae Ja, Li, Tian T., Lobanov, Sergey, McKeown, Joseph T., Nagler, Robert, Nam, Inhyuk, Nelson, Art J., Prakapenka, Vitali, Prescher, Clemens, Roehling, John D., Teslich, Nick E., Walter, Peter, Goncharov, Alexander F., and Belof, Jonathan L.

Subjects

Condensed Matter - Materials Science

Abstract

In order to probe the mechanism of solid-solid phase transformations, we have applied ultrafast shock wave compression (120 picosecond duration) and ultrashort (130 femtosecond) x-ray diffraction at the Linac Coherent Light Source (LCLS) to probe the compression-induced phase transition pathway in zirconium. Surprisingly, rather than transform from alpha-Zr to the more disordered hex-3 equilibrium omega-Zr phase, in its place we find the formation of a non-equilibrium body-centered cubic (bcc) metastable intermediate. Theoretically hypothesized for several decades, this bcc intermediate state has now been found to be dynamically stabilized under uniaxial loading at sub-nanosecond timescales. Molecular dynamics simulations of shock-wave propagation in zirconium predict this transformation via the dynamical intermediate state. In contrast with longer timescale experiments where the phase diagram alone is an adequate predictor of the crystalline structure of a material, our recent study highlights the importance of metastability and time-dependence in the kinetics of phase transformation at extreme conditions.

Published

2018

3. Onset of a Two-Dimensional Superconducting Phase in a Topological-Insulator–Normal-Metal Bi1-xSbx/Pt Junction Fabricated by Ion-Beam Techniques

Author

Qu, Dong-Xia, Teslich, Nick E, Dai, Zurong, Chapline, George F, Schenkel, Thomas, Durham, Sean R, and Dubois, Jonathan

Subjects

Physical Sciences, Condensed Matter Physics, Mathematical Sciences, Engineering, General Physics, Mathematical sciences, Physical sciences

Abstract

Inducing superconductivity in a topological insulator can lead to novel quantum effects. However, experimental approaches to turn a topological insulator into a superconductor are limited. Here, we report on superconductivity in topological insulator Bi_{0.91}Sb_{0.09} induced via focused ion-beam deposition of a Pt thin film. The superconducting phase exhibits a Berezinski-Kosterlitz-Thouless transition, demonstrative of its two-dimensional character. From the in-plane upper critical field measurements, we estimate the superconducting thickness to be ∼17  nm for a 5.5-μm-thick sample. Our results provide evidence that the interface superconductivity could originate from the surface states of Bi_{0.91}Sb_{0.09}.

Published

2018

4. Observation of Fundamental Mechanisms in Compression-Induced Phase Transformations Using Ultrafast X-ray Diffraction

Author

Armstrong, Michael R., Radousky, Harry B., Austin, Ryan A., Stavrou, Elissaios, Zong, Hongxiang, Ackland, Graeme J., Brown, Shaughnessy, Crowhurst, Jonathan C., Gleason, Arianna E., Granados, Eduardo, Grivickas, Paulius, Holtgrewe, Nicholas, Lee, Hae Ja, Li, Tian T., Lobanov, Sergey, McKeown, Joseph T., Nagler, Bob, Nam, Inhyuk, Nelson, Art J., Prakapenka, Vitali, Prescher, Clemens, Roehling, John D., Teslich, Nick E., Walter, Peter, Goncharov, Alexander F., and Belof, Jonathan L.

Published

2021

5. Phase-Slip Lines and Anomalous Josephson Effects in Tungsten Nanoscale Cluster-Based Topological Insulator Nanobridges: Implications for Topologically Protected Qubits and Quantum Sensors

Author

Qu, Dong-Xia, primary, Cuozzo, Joseph J., additional, Teslich, Nick E., additional, Ray, Keith G., additional, Dai, Zurong, additional, Li, Tian T., additional, Chapline, George F., additional, DuBois, Jonathan L., additional, and Rossi, Enrico, additional

Published

2024

6. Characterization of uraninite using a FIB–SEM approach and its implications for LA–ICP–MS analyses

Author

Lewis, Stefanie R., Simonetti, Antonio, Corcoran, Loretta, Spano, Tyler L., Chung, Brandon W., Teslich, Nick E., and Burns, Peter C.

Published

2018

7. The hydride-dehydride process combined with plasma spheroidization: An alternative route for producing spherical metallic powders of U-6 wt.% Nb

Author

Huang, Kevin, primary, Elton, Eric S., additional, Henderson, Hunter B., additional, Harward, Norris K., additional, Clarke, Evan M., additional, Winston, Logan D., additional, Sedillo, Edwin M., additional, Rosas, Debra L., additional, Schaeffer-Cuellar, Cherie A., additional, Simpson, Scott A., additional, Li, Tian T., additional, Teslich, Nick E., additional, Torres, Sharon G., additional, DeMint, Amy L., additional, Cook, Jeffrey A., additional, McKeown, Joseph T., additional, Jeffries, Jason R., additional, Hamza, Alex V., additional, and Stillwell, Ryan L., additional

Published

2023

8. Three-dimensional microstructural characterization of bulk plutonium and uranium metals using focused ion beam technique

Author

Chung, Brandon W., Erler, Robert G., and Teslich, Nick E.

Published

2016

9. Substrate and coating defect planarization strategies for high-laser-fluence multilayer mirrors

Author

Stolz, Christopher J., Wolfe, Justin E., Mirkarimi, Paul B., Folta, James A., Adams, John J., Menor, Marlon G., Teslich, Nick E., Soufli, Regina, Menoni, Carmen S., and Patel, Dinesh

Published

2015

10. Grain size dependent physical and chemical properties of thick CVD diamond films for high energy density physics experiments

Author

Dawedeit, Christoph, Kucheyev, Sergei O., Shin, Swanee J., Willey, Trevor M., Bagge-Hansen, Michael, Braun, Tom, Wang, Y. Morris, El-Dasher, Bassem S., Teslich, Nick E., Biener, Monika M., Ye, Jianchao, Kirste, Lutz, Roehlig, Claus-C., Wolfer, Marco, Woerner, Eckhard, van Buuren, Anthony W., Hamza, Alex V., Wild, Christoph, and Biener, Juergen

Published

2013

11. Enhanced Raman scattering and nonlinear conductivity in Ag-doped hollow ZnO microspheres

Author

Tringe, Joseph W., Levie, Harold W., McCall, Scott K., Teslich, Nick E., Wall, Mark A., Orme, Christine A., and Matthews, Manyalibo J.

Published

2012

12. Observation of a metastable intermediate during solid-solid phase transformation in response to rapid compression

Author

Aleksandr Fedorov, Gleason, Arianna E., Nelson, Art J., Clemens Prescher, Eduardo Granados, Elissaios Stavrou, Ackland, Graeme J., Hae Ja Lee, Radousky, Harry B., Hongxiang Zong, Inhyuk Nam, Roehling, John D., Crowhurst, Jonathan C., Belof, Jonathan L., Mckeown, Joseph T., Armstrong, Michael R., Nicholas Holtgrewe, Teslich, Nick E., Paulius Grivickas, Peter Walter, Robert Nagler, Austin, Ryan A., Sergey Lobanov, Shaughnessy Brown, Li, Tian T., and Vitali Prakapenka

Subjects

Condensed Matter - Materials Science, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences

Abstract

In order to probe the mechanism of solid-solid phase transformations, we have applied ultrafast shock wave compression (120 picosecond duration) and ultrashort (130 femtosecond) x-ray diffraction at the Linac Coherent Light Source (LCLS) to probe the compression-induced phase transition pathway in zirconium. Surprisingly, rather than transform from alpha-Zr to the more disordered hex-3 equilibrium omega-Zr phase, in its place we find the formation of a non-equilibrium body-centered cubic (bcc) metastable intermediate. Theoretically hypothesized for several decades, this bcc intermediate state has now been found to be dynamically stabilized under uniaxial loading at sub-nanosecond timescales. Molecular dynamics simulations of shock-wave propagation in zirconium predict this transformation via the dynamical intermediate state. In contrast with longer timescale experiments where the phase diagram alone is an adequate predictor of the crystalline structure of a material, our recent study highlights the importance of metastability and time-dependence in the kinetics of phase transformation at extreme conditions.

Published

2018

13. The α→∈ phase transition in iron at strain rates up to ∼109 s-1.

Author

Crowhurst, Jonathan C., Reed, Bryan W., Armstrong, Michael R., Radousky, Harry B., Carter, Jeffrey A., Swift, Damian C., Zaug, Joseph M., Minich, Roger W., Teslich, Nick E., and Kumar, Mukul

Subjects

IRON spectra, PHASE transitions, SOLID phase extraction, POLYMORPHIC transformations, ELASTIC deformation, STRAINS & stresses (Mechanics)

Abstract

We have used a table-top scale laser to dynamically compress iron at strain rates in excess of 109 s-1. Using an embedded ultrafast interferometer, we have measured corresponding free surface histories with a time resolution of approximately 10 ps. We have analyzed the surface histories using a method that accounts for nonsteady wave propagation and time-dependent material behavior. We show that at these strain rates, the α→∈ polymorphic transition begins within 100 ps after an initial very large (∼10 GPa) and mostly elastic compression and appears largely complete within a similar time thereafter. The corresponding deviatoric stress before the transition begins can exceed 3 GPa, while the transition stress itself is up to 25 GPa, nearly twice the value measured at low strain rates. We use these results to propose a systematic variation with loading time of the normal-stress/relative-volume curve followed by iron during rapid compression. [ABSTRACT FROM AUTHOR]

Published

2014

14. Onset of a Two-Dimensional Superconducting Phase in a Topological-Insulator–Normal-Metal Bi1−xSbx/Pt Junction Fabricated by Ion-Beam Techniques

Author

Qu, Dong-Xia, primary, Teslich, Nick E., additional, Dai, Zurong, additional, Chapline, George F., additional, Schenkel, Thomas, additional, Durham, Sean R., additional, and Dubois, Jonathan, additional

Published

2018

15. Ultrafast dynamic response of single crystal β-HMX

Author

Zaug, Joseph M., primary, Armstrong, Michael R., additional, Crowhurst, Jonathan C., additional, Radousky, Harry B., additional, Ferranti, Louis, additional, Swan, Raymond, additional, Gross, Rick, additional, Teslich, Nick E., additional, Wall, Mark A., additional, Austin, Ryan A., additional, and Fried, Laurence E., additional

Published

2017

16. Yielding of tantalum at strain rates up to 109 s−1

Author

Crowhurst, Jonathan C., primary, Armstrong, Michael R., additional, Gates, Sean D., additional, Zaug, Joseph M., additional, Radousky, Harry B., additional, and Teslich, Nick E., additional

Published

2016

17. Depth determination of critical fluence-limiting defects within planarized and non-planarized mirror coatings

Author

Stolz, Christopher J., additional, Wolfe, Justin E., additional, Mirkarimi, Paul B., additional, Folta, James A., additional, Adams, John J., additional, Menor, Marlon G., additional, Raman, Rajesh, additional, Neilsen, Norm, additional, Norton, Mary, additional, Luthi, Ronald, additional, Teslich, Nick E., additional, Menoni, Carmen S., additional, and Patel, Dinesh, additional

Published

2015

18. The α→ϵ phase transition in iron at strain rates up to ∼109 s−1

Author

Crowhurst, Jonathan C., primary, Reed, Bryan W., additional, Armstrong, Michael R., additional, Radousky, Harry B., additional, Carter, Jeffrey A., additional, Swift, Damian C., additional, Zaug, Joseph M., additional, Minich, Roger W., additional, Teslich, Nick E., additional, and Kumar, Mukul, additional

Published

2014

19. High laser-resistant multilayer mirrors by nodular defect planarization [Invited]

Author

Stolz, Christopher J., primary, Wolfe, Justin E., additional, Adams, John J., additional, Menor, Marlon G., additional, Teslich, Nick E., additional, Mirkarimi, Paul B., additional, Folta, James A., additional, Soufli, Regina, additional, Menoni, Carmen S., additional, and Patel, Dinesh, additional

Published

2014

20. Defect insensitive 100 J/cm2multilayer mirror coating process

Author

Stolz, Christopher J., additional, Wolfe, Justin E., additional, Mirkarimi, Paul B., additional, Folta, James A., additional, Adams, John J., additional, Menor, Marlon G., additional, Teslich, Nick E., additional, Soufli, Regina, additional, Menoni, Carmen S., additional, and Patel, Dinesh, additional

Published

2013

21. Nodular defect planarization for improved multilayer mirror laser resistance

Author

Stolz, Christopher J., primary, Wolfe, Justin E., additional, Mirkarimi, Paul B., additional, Folta, James A., additional, Adams, John A., additional, Menor, Marlon G., additional, Teslich, Nick E., additional, Soufli, Regina, additional, Menoni, Carmen S., additional, and Patel, Dinesh, additional

Published

2013

22. Yielding of tantalum at strain rates up to 109s-1.

Author

Crowhurst, Jonathan C., Armstrong, Michael R., Gates, Sean D., Zaug, Joseph M., Radousky, Harry B., and Teslich, Nick E.

Subjects

TANTALUM films, LASER pulses, INTERFEROMETRY, STRAIN rate, THICKNESS measurement

Abstract

We have used a 45 μJ laser pulse to accelerate the free surface of fine-grained tantalum films up to peak velocities of ~1.2 km s-1. The films had thicknesses of ~1'2 μm and in-plane grain widths of ~75'150nm. Using ultrafast interferometry, we have measured the time history of the velocity of the surface at different spatial positions across the accelerated region. The initial part of the histories (assumed to correspond to the "elastic precursor" observed previously) exhibited measured strain rates of ~0.6 to ~3.2 × 109 s-1 and stresses of ~4 to ~22GPa. Importantly, we find that elastic amplitudes exhibit little variation with strain rate for a constant peak surface velocity, even though, via covariation of the strain rate with peak surface velocity, they vary with strain rate. Furthermore, by comparison with data obtained at lower strain rates, we find that amplitudes are much better predicted by peak velocities rather than by either strain rate or sample thickness. [ABSTRACT FROM AUTHOR]

Published

2016

23. Why Nanoprojectiles Work Differently than Macroimpactors: The Role of Plastic Flow

Author

Anders, Christian, primary, Bringa, Eduardo M., additional, Ziegenhain, Gerolf, additional, Graham, Giles A., additional, Hansen, J. Freddy, additional, Park, Nigel, additional, Teslich, Nick E., additional, and Urbassek, Herbert M., additional

Published

2012

24. Impact of substrate surface scratches on the laser damage resistance of multilayer coatings

Author

Qiu, S. Roger, primary, Wolfe, Justin E., additional, Monterrosa, Anthony M., additional, Steele, William A., additional, Teslich, Nick E., additional, Feit, Michael D., additional, Pistor, Thomas V., additional, and Stolz, Christopher J., additional

Published

2010

25. Photoacoustically Measured Speeds of Sound of Liquid HBO2: Semi-Empirical Modeling of Boron-Containing Explosives

Author

Zaug, Joseph M., primary, Bastea, Sorin, additional, Crowhurst, Jonathan C., additional, Armstrong, Michael R., additional, and Teslich, Nick E., additional

Published

2010

26. Nanoporous Metal Components Bonded with Sputtered Solder for Equation-of-State Laser Targets

Author

Bono, Matthew J., primary, Langstaff, George Q., additional, Cervantes, Octavio, additional, Akaba, Craig M., additional, Strodtbeck, Steven R., additional, Hamza, Alex V., additional, Teslich, Nick E., additional, Foreman, Ronald J., additional, Lotscher, Johann P., additional, Nyce, Gregoryw., additional, Page, Ralph H., additional, Dittrich, Thomas R., additional, and Glendinning, Gail, additional

Published

2009

27. Applied focused ion beam techniques for sample preparation of astromaterials for integrated nanoanalysis

Author

Graham, Giles A., primary, Teslich, Nick E., additional, Kearsley, Anton T., additional, Stadermann, Frank J., additional, Stroud, Rhonda M., additional, Dai, Zurong, additional, Ishii, Hope A., additional, Hutcheon, Ian D., additional, Bajt, Saša, additional, Snead, Christopher J., additional, Weber, Peter K., additional, and Bradley, John P., additional

Published

2008

28. Discovery of non-random spatial distribution of impacts in the Stardust cometary collector

Author

Westphal, Andrew J., primary, Bastien, Ronald K., additional, Borg, Janet, additional, Bridges, John, additional, Brownlee, Donald E., additional, Burchell, Mark J., additional, Cheng, Andrew F., additional, Clark, Benton C., additional, Djouadi, Zahia, additional, Floss, Christine, additional, Franchi, Ian, additional, Gainsforth, Zack, additional, Graham, Giles, additional, Green, Simon F., additional, Heck, Philipp R., additional, HorÁNYI, Mihaly, additional, Hoppe, Peter, additional, Hörz, Friedrich P., additional, Huth, Joachim, additional, Kearsley, Anton, additional, Leroux, Hugues, additional, Marhas, Kuljeet, additional, Nakamura-Messenger, Keiko, additional, Sandford, Scott A., additional, See, Thomas H., additional, Stadermann, Frank J., additional, Teslich, Nick E., additional, Tsitrin, Samuel, additional, Warren, Jack L., additional, Wozniakiewicz, Penelope J., additional, and Zolensky, Michael E., additional

Published

2008

29. Diamond Ablators for Inertial Confinement Fusion

Author

Biener, Juergen, primary, Mirkarimi, Paul B., additional, Tringe, Joseph W., additional, Baker, Sherry L., additional, Wang, Yinmin, additional, Kucheyev, Sergei O., additional, Teslich, Nick E., additional, Wu, Kuang Jen J., additional, Hamza, Alex V., additional, Wild, Christoph, additional, Woerner, Eckhard, additional, Koidl, Peter, additional, Bruehne, Kai, additional, and Fecht, Hans-Joerg, additional

Published

2006

30. Depth determination of critical fluence-limiting defects within planarized and non-planarized mirror coatings

Author

Lequime, Michel, Macleod, H. Angus, Ristau, Detlev, Stolz, Christopher J., Wolfe, Justin E., Mirkarimi, Paul B., Folta, James A., Adams, John J., Menor, Marlon G., Raman, Rajesh, Neilsen, Norm, Norton, Mary, Luthi, Ronald, Teslich, Nick E., Menoni, Carmen S., and Patel, Dinesh

Published

2015

31. Onset of a Two-Dimensional Superconducting Phase in a Topological-Insulator-Normal-Metal Bi1-xSbx/Pt Junction Fabricated by Ion-Beam Techniques.

Author

Dong-Xia Qu, Teslich, Nick E., Zurong Dai, Chapline, George F., Schenkel, Thomas, Durham, Sean R., and Dubois, Jonathan

Subjects

*METALLIC thin films, *SUPERCONDUCTIVITY, *TOPOLOGICAL insulators

Abstract

Inducing superconductivity in a topological insulator can lead to novel quantum effects. However, experimental approaches to turn a topological insulator into a superconductor are limited. Here, we report on superconductivity in topological insulator Bi0.91Sb0.09 induced via focused ion-beam deposition of a Pt thin film. The superconducting phase exhibits a Berezinski-Kosterlitz-Thouless transition, demonstrative of its two-dimensional character. From the in-plane upper critical field measurements, we estimate the superconducting thickness to be ~17 nm for a 5.5-μm-thick sample. Our results provide evidence that the interface superconductivity could originate from the surface states of Bi0.91Sb0.09. [ABSTRACT FROM AUTHOR]

Published

2018

32. Defect insensitive 100 J/cm2multilayer mirror coating process

Author

Exarhos, Gregory J., Gruzdev, Vitaly E., Menapace, Joseph A., Ristau, Detlev, Soileau, MJ, Stolz, Christopher J., Wolfe, Justin E., Mirkarimi, Paul B., Folta, James A., Adams, John J., Menor, Marlon G., Teslich, Nick E., Soufli, Regina, Menoni, Carmen S., and Patel, Dinesh

Published

2013

33. The α→∈ phase transition in iron at strain rates up to ∼109 s-1.

Author

Crowhurst, Jonathan C., Reed, Bryan W., Armstrong, Michael R., Radousky, Harry B., Carter, Jeffrey A., Swift, Damian C., Zaug, Joseph M., Minich, Roger W., Teslich, Nick E., and Kumar, Mukul

Subjects

*IRON spectra, *PHASE transitions, *SOLID phase extraction, *POLYMORPHIC transformations, *ELASTIC deformation, *STRAINS & stresses (Mechanics)

Abstract

We have used a table-top scale laser to dynamically compress iron at strain rates in excess of 109 s-1. Using an embedded ultrafast interferometer, we have measured corresponding free surface histories with a time resolution of approximately 10 ps. We have analyzed the surface histories using a method that accounts for nonsteady wave propagation and time-dependent material behavior. We show that at these strain rates, the α→∈ polymorphic transition begins within 100 ps after an initial very large (∼10 GPa) and mostly elastic compression and appears largely complete within a similar time thereafter. The corresponding deviatoric stress before the transition begins can exceed 3 GPa, while the transition stress itself is up to 25 GPa, nearly twice the value measured at low strain rates. We use these results to propose a systematic variation with loading time of the normal-stress/relative-volume curve followed by iron during rapid compression. [ABSTRACT FROM AUTHOR]

Published

2014

34. Yielding of tantalum at strain rates up to 109s-1.

Author

Crowhurst, Jonathan C., Armstrong, Michael R., Gates, Sean D., Zaug, Joseph M., Radousky, Harry B., and Teslich, Nick E.

Subjects

*TANTALUM films, *LASER pulses, *INTERFEROMETRY, *STRAIN rate, *THICKNESS measurement

Abstract

We have used a 45 μJ laser pulse to accelerate the free surface of fine-grained tantalum films up to peak velocities of ~1.2 km s-1. The films had thicknesses of ~1'2 μm and in-plane grain widths of ~75'150nm. Using ultrafast interferometry, we have measured the time history of the velocity of the surface at different spatial positions across the accelerated region. The initial part of the histories (assumed to correspond to the "elastic precursor" observed previously) exhibited measured strain rates of ~0.6 to ~3.2 × 109 s-1 and stresses of ~4 to ~22GPa. Importantly, we find that elastic amplitudes exhibit little variation with strain rate for a constant peak surface velocity, even though, via covariation of the strain rate with peak surface velocity, they vary with strain rate. Furthermore, by comparison with data obtained at lower strain rates, we find that amplitudes are much better predicted by peak velocities rather than by either strain rate or sample thickness. [ABSTRACT FROM AUTHOR]

Published

2016