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2,150 results on '"Johnson, Nathan A."'

1. High frequency breakdown in quantum dots

Author

Johnson, Nathan, Yamahata, Gento, and Fujiwara, Akira

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Dynamic quantum dots are known to generate very accurate currents and can be used as a source of single electron wavepackets for use in quantum metrology, sensing or information processing. To realise their full technological potential, it is desirable to maximise the frequency of operation to increase the current. However, it has been observed that the mechanism of electron transfer across the quantum dot consistently breaks down for GHz frequencies, and this remains unexplained. Here, we present a novel analysis technique, combined with detailed modelling, to present a mechanism of high frequency breakdown in quantum dots as a rapidly-imparted momentum impulse. Such understanding aids future design and operation protocols, allowing their use in high frequency and real time quantum measurements and technologies., Comment: 8 pages, 3 figures

Published
2024

2. Exchange control in a MOS double quantum dot made using a 300 mm wafer process

Author

Chittock-Wood, Jacob F., Leon, Ross C. C., Fogarty, Michael A., Murphy, Tara, Patomäki, Sofia M., Oakes, Giovanni A., von Horstig, Felix-Ekkehard, Johnson, Nathan, Jussot, Julien, Kubicek, Stefan, Govoreanu, Bogdan, Wise, David F., Gonzalez-Zalba, M. Fernando, and Morton, John J. L.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

Leveraging the advanced manufacturing capabilities of the semiconductor industry promises to help scale up silicon-based quantum processors by increasing yield, uniformity and integration. Recent studies of quantum dots fabricated on 300 mm wafer metal-oxide-semiconductor (MOS) processes have shown control and readout of individual spin qubits, yet quantum processors require two-qubit interactions to operate. Here, we use a 300 mm wafer MOS process customized for spin qubits and demonstrate coherent control of two electron spins using the spin-spin exchange interaction, forming the basis of an entangling gate such as $\sqrt{\text{SWAP}}$. We observe gate dephasing times of up to $T_2^{*}\approx500$ ns and a gate quality factor of 10. We further extend the coherence by up to an order of magnitude using an echo sequence. For readout, we introduce a dispersive readout technique, the radiofrequency electron cascade, that amplifies the signal while retaining the spin-projective nature of dispersive measurements. Our results demonstrate an industrial grade platform for two-qubit operations, alongside integration with dispersive sensing techniques.

Published
2024

3. Technology-Based Interventions, with a Stepped Care Approach, for Reducing Sexual Risk Behaviors and Increasing PrEP Initiation Among Transgender and Gender Expansive Youth and Young Adults

Author

Reback, Cathy J., Cain, Demetria, Rusow, Joshua A., Benkeser, David, Schader, Lindsey, Gwiazdowski, Bevin A., Skeen, Simone J., Hannah, Marissa, Belzer, Marvin, Castillo, Marne, Mayer, Kenneth H., Paul, Mary E., Hill-Rorie, Jonathan, Johnson, Nathan Dorcey, McAvoy-Banerjea, Julie, Sanchez, Travis, Hightow-Weidman, Lisa B., Sullivan, Patrick S., and Horvath, Keith J.

Published
2024
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6. Preface

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

7. Acknowledgments

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

8. Chapter 4. Inland Waters

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

9. Contents

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

14. Genus Anodontoides

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

15. Genus Elliptio

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

16. Genus Glebula

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

19. Genus Fusconaia

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

20. Genus Pyganodon

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

21. Genus Medionidus

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

23. Margaritifera marrianae

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

24. Genus Hamiota

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

25. Genus Quadrula

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

26. Genus Lampsilis

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

28. Genus Obovaria

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

29. Genus Utterbackia

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

30. Genus Reginaia

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

31. Genus Toxolasma

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

32. Genus Villosa

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

33. Lasmigona subviridis

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

34. Elliptio nigella

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

35. Lampsilis binominata

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

36. Pyganodon cataracta

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

40. Chapter 1. Introduction

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

45. Glossary

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

46. Literature Cited

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

47. General Index

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

48. Systematic Index

Author

Williams, James D., Butler, Robert S., Warren, Gary L., and Johnson, Nathan A.

Published
2014

49. Active Learning for Rapid Targeted Synthesis of Compositionally Complex Alloys

Author

Johnson, Nathan, Mishra, Aashwin Ananda, and Mehta, Apurva

Subjects
Condensed Matter - Materials Science, Physics - Computational Physics
Abstract

The next generation of advanced materials is tending toward increasingly complex compositions. Synthesizing precise composition is time-consuming and becomes exponentially demanding with increasing compositional complexity. An experienced human operator does significantly better than a beginner but still struggles to consistently achieve precision when synthesis parameters are coupled. The time to optimize synthesis becomes a barrier to exploring scientifically and technologically exciting compositionally complex materials. This investigation demonstrates an Active Learning (AL) approach for optimizing physical vapor deposition synthesis of thin-film alloys with up to five principal elements. We compared AL based on Gaussian Process (GP) and Random Forest (RF) models. The best performing models were able to discover synthesis parameters for a target quinary alloy in 14 iterations. We also demonstrate the capability of these models to be used in transfer learning tasks. RF and GP models trained on lower dimensional systems (i.e. ternary, quarternary) show an immediate improvement in prediction accuracy compared to models trained only on quinary samples. Furthermore, samples that only share a few elements in common with the target composition can be used for model pre-training. We believe that such AL approaches can be widely adapted to significantly accelerate the exploration of compositionally complex materials.

Published
2024

50. A case study of multi-modal, multi-institutional data management for the combinatorial materials science community

Author

Allec, Sarah I., Muckley, Eric S., Johnson, Nathan S., Borg, Christopher K. H., Kirsch, Dylan J., Martin, Joshua, Pant, Rohit, Takeuchi, Ichiro, Lee, Andrew S., Saal, James E., Ward, Logan, and Mehta, Apurva

Subjects
Condensed Matter - Materials Science
Abstract

Although the convergence of high-performance computing, automation, and machine learning has significantly altered the materials design timeline, transformative advances in functional materials and acceleration of their design will require addressing the deficiencies that currently exist in materials informatics, particularly a lack of standardized experimental data management. The challenges associated with experimental data management are especially true for combinatorial materials science, where advancements in automation of experimental workflows have produced datasets that are often too large and too complex for human reasoning. The data management challenge is further compounded by the multi-modal and multi-institutional nature of these datasets, as they tend to be distributed across multiple institutions and can vary substantially in format, size, and content. To adequately map a materials design space from such datasets, an ideal materials data infrastructure would contain data and metadata describing i) synthesis and processing conditions, ii) characterization results, and iii) property and performance measurements. Here, we present a case study for the low-barrier development of such a dashboard that enables standardized organization, analysis, and visualization of a large data lake consisting of combinatorial datasets of synthesis and processing conditions, X-ray diffraction patterns, and materials property measurements generated at several different institutions. While this dashboard was developed specifically for data-driven thermoelectric materials discovery, we envision the adaptation of this prototype to other materials applications, and, more ambitiously, future integration into an all-encompassing materials data management infrastructure.

Published
2023

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