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24 results on '"Clark, Susan M."'

1. Fault Localization in a Microfabricated Surface Ion Trap using Diamond Nitrogen-Vacancy Center Magnetometry

Author

Kehayias, Pauli, Delaney, Matthew A., Haltli, Raymond A., Clark, Susan M., Revelle, Melissa C., and Mounce, Andrew M.

Subjects
Physics - Instrumentation and Detectors, Quantum Physics
Abstract

As quantum computing hardware becomes more complex with ongoing design innovations and growing capabilities, the quantum computing community needs increasingly powerful techniques for fabrication failure root-cause analysis. This is especially true for trapped-ion quantum computing. As trapped-ion quantum computing aims to scale to thousands of ions, the electrode numbers are growing to several hundred with likely integrated-photonic components also adding to the electrical and fabrication complexity, making faults even harder to locate. In this work, we used a high-resolution quantum magnetic imaging technique, based on nitrogen-vacancy (NV) centers in diamond, to investigate short-circuit faults in an ion trap chip. We imaged currents from these short-circuit faults to ground and compared to intentionally-created faults, finding that the root-cause of the faults was failures in the on-chip trench capacitors. This work, where we exploited the performance advantages of a quantum magnetic sensing technique to troubleshoot a piece of quantum computing hardware, is a unique example of the evolving synergy between emerging quantum technologies to achieve capabilities that were previously inaccessible., Comment: 8 pages main text; 2 pages supplement

Published
2024
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2. First-Order Crosstalk Mitigation in Parallel Quantum Gates Driven With Multi-Photon Transitions

Author

Chow, Matthew N. H., Yale, Christopher G., Burch, Ashlyn D., Ivory, Megan, Lobser, Daniel S., Revelle, Melissa C., and Clark, Susan M.

Subjects
Quantum Physics
Abstract

We demonstrate an order of magnitude reduction in the sensitivity to optical crosstalk for neighboring trapped-ion qubits during simultaneous single-qubit gates driven with individual addressing beams. Gates are implemented via two-photon Raman transitions, where crosstalk is mitigated by offsetting the drive frequencies for each qubit to avoid first-order crosstalk effects from inter-beam two-photon resonance. The technique is simple to implement, and we find that phase-dependent crosstalk due to optical interference is reduced on the most impacted neighbor from a maximal fractional rotation error of 0.185(4) without crosstalk mitigation to $\leq$ 0.006 with the mitigation strategy. Further, we characterize first-order crosstalk in the two-qubit gate and avoid the resulting rotation errors for the arbitrary-axis M{\o}lmer-S{\o}rensen gate via a phase-agnostic composite gate. Finally, we demonstrate holistic system performance by constructing a composite CNOT gate using the improved single-qubit gates and phase-agnostic two-qubit gate. This work is done on the Quantum Scientific Computing Open User Testbed (QSCOUT); however, our methods are widely applicable for individual-addressing Raman gates and impose no significant overhead, enabling immediate improvement for quantum processors that incorporate this technique.

Published
2023
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4. Precise micromotion compensation of a tilted ion chain.

Author

Hogle, Craig W., Burch, Ashlyn D., Sterk, Jonathan D., Chow, Matthew N. H., Ivory, Megan, Lobser, Daniel S., Maunz, Peter, Van Der Wall, Jay, Yale, Christopher G., Clark, Susan M., Stick, Daniel, and Revelle, Melissa C.

Subjects
ION traps, ELECTRIC fields, IONS, SPATIAL resolution
Abstract

Excess micromotion can be a substantial source of errors in trapped-ion based quantum processors and clocks due to the sensitivity of the internal states of the ion to external fields and motion. This problem can be fixed by compensating background electric fields in order to position ions at the RF node and minimize their driven micromotion. Here we describe techniques for compensating ion chains in scalable surface ion traps. These traps are capable of cancelling stray electric fields with fine spatial resolution in order to compensate multiple closely spaced ions due to their large number of relatively small control electrodes. We demonstrate a technique that compensates an ion chain to better than 5 V/m and within 0.1 degrees of chain rotation. [ABSTRACT FROM AUTHOR]

Published
2024
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5. All-optical switching in rubidium vapor

Author

Dawes, Andrew M. C., Illing, Lucas, Clark, Susan M., and Gauthier, Daniel J.

Subjects
Nonlinear Sciences - Pattern Formation and Solitons, Physics - Optics
Abstract

We report on an all-optical switch that operates at low light levels. It consists of laser beams counterpropagating through a warm rubidium vapor that induce an off-axis optical pattern. A switching laser beam causes this pattern to rotate even when the power in the switching beam is much lower than the power in the pattern. The observed switching energy density is very low, suggesting that the switch might operate at the single-photon level with system optimization. This approach opens the possibility of realizing a single-photon switch for quantum information networks and for improving transparent optical telecommunication networks., Comment: 20 pages, 6 figures; published in Science; http://www.sciencemag.org/cgi/content/short/308/5722/672

Published
2005
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6. In situ detection of RF breakdown on microfabricated surface ion traps.

Author

Wilson, Joshua M., Tilles, Julia N., Haltli, Raymond A., Ou, Eric, Blain, Matthew G., Clark, Susan M., and Revelle, Melissa C.

Subjects
ION traps, ELECTRIC discharges, QUANTUM information science
Abstract

Microfabricated surface ion traps are a principal component of many ion-based quantum information science platforms. The operational parameters of these devices are pushed to the edge of their physical capabilities as the experiments strive for increasing performance. When the applied radio-frequency (RF) voltage is increased excessively, the devices can experience damaging electric discharge events known as RF breakdown. We introduce two novel techniques for in situ detection of RF breakdown, which we implemented while characterizing the breakdown threshold of surface ion traps produced at Sandia National Laboratories. In these traps, breakdown did not always occur immediately after increasing the RF voltage, but often minutes or even hours later. This result is surprising in the context of the suggested mechanisms for RF breakdown in vacuum. Additionally, the extent of visible damage caused by breakdown events increased with the applied voltage. To minimize the probability for damage when RF power is first applied to a device, our results strongly suggest that the voltage should be ramped up over the course of several hours and monitored for breakdown. [ABSTRACT FROM AUTHOR]

Published
2022
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8. First-order crosstalk mitigation in parallel quantum gates driven with multi-photon transitions.

Author

Chow, Matthew N. H., Yale, Christopher G., Burch, Ashlyn D., Ivory, Megan, Lobser, Daniel S., Revelle, Melissa C., and Clark, Susan M.

Subjects
QUANTUM computing, QUBITS, QUANTUM gates, OPTICAL interference, SCIENTIFIC computing, ROTATIONAL motion, RAMAN scattering
Abstract

We demonstrate an order of magnitude reduction in the sensitivity to optical crosstalk for neighboring trapped-ion qubits during simultaneous single-qubit gates driven with individual addressing beams. Gates are implemented via two-photon Raman transitions, where crosstalk is mitigated by offsetting the drive frequencies for each qubit to avoid first-order crosstalk effects from inter-beam two-photon resonance. The technique is simple to implement, and we find that phase-dependent crosstalk due to optical interference is reduced on the most impacted neighbor from a maximal fractional rotation error of 0.185 (4) without crosstalk mitigation to ≤ 0.006 with the mitigation strategy. Furthermore, we characterize first-order crosstalk in the two-qubit gate and avoid the resulting rotation errors for the arbitrary-axis Mølmer–Sørensen gate via a phase-agnostic composite gate. Finally, we demonstrate holistic system performance by constructing a composite CNOT gate using the improved single-qubit gates and phase-agnostic two-qubit gate. This work is done on the Quantum Scientific Computing Open User Testbed; however, our methods are widely applicable for individual addressing Raman gates and impose no significant overhead, enabling immediate improvement for quantum processors that incorporate this technique. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Taxonomy of fibroblasts and progenitors in the synovial joint at single-cell resolution.

Author

Collins, Fraser L., Roelofs, Anke J., Symons, Rebecca A., Kania, Karolina, Campbell, Ewan, Collie-duguid, Elaina S. R., Riemen, Anna H. K., Clark, Susan M., and De Bari, Cosimo

Abstract

Objectives: Fibroblasts in synovium include fibroblast-like synoviocytes (FLS) in the lining and Thy1+ connective-tissue fibroblasts in the sublining. We aimed to investigate their developmental origin and relationship with adult progenitors.Methods: To discriminate between Gdf5-lineage cells deriving from the embryonic joint interzone and other Pdgfrα-expressing fibroblasts and progenitors, adult Gdf5-Cre;Tom;Pdgfrα-H2BGFP mice were used and cartilage injury was induced to activate progenitors. Cells were isolated from knees, fibroblasts and progenitors were sorted by fluorescence-activated cell-sorting based on developmental origin, and analysed by single-cell RNA-sequencing. Flow cytometry and immunohistochemistry were used for validation. Clonal-lineage mapping was performed using Gdf5-Cre;Confetti mice.Results: In steady state, Thy1+ sublining fibroblasts were of mixed ontogeny. In contrast, Thy1-Prg4+ lining fibroblasts predominantly derived from the embryonic joint interzone and included Prg4-expressing progenitors distinct from molecularly defined FLS. Clonal-lineage tracing revealed compartmentalisation of Gdf5-lineage fibroblasts between lining and sublining. Following injury, lining hyperplasia resulted from proliferation and differentiation of Prg4-expressing progenitors, with additional recruitment of non-Gdf5-lineage cells, into FLS. Consistent with this, a second population of proliferating cells, enriched near blood vessels in the sublining, supplied activated multipotent cells predicted to give rise to Thy1+ fibroblasts, and to feed into the FLS differentiation trajectory. Transcriptional programmes regulating fibroblast differentiation trajectories were uncovered, identifying Sox5 and Foxo1 as key FLS transcription factors in mice and humans.Conclusions: Our findings blueprint a cell atlas of mouse synovial fibroblasts and progenitors in healthy and injured knees, and provide novel insights into the cellular and molecular principles governing the organisation and maintenance of adult synovial joints. [ABSTRACT FROM AUTHOR]

Published
2023
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12. Targeting the IL-6-Yap-Snail signalling axis in synovial fibroblasts ameliorates inflammatory arthritis.

Author

Symons, Rebecca A., Colella, Fabio, Collins, Fraser L., Rafipay, Alexandra J., Kania, Karolina, McClure, Jessica J., White, Nathan, Cunningham, Iain, Ashraf, Sadaf, Hay, Elizabeth, Mackenzie, Kevin S., Howard, Kenneth A., Riemen, Anna H. K., Manzo, Antonio, Clark, Susan M., Roelofs, Anke J., Bari, Cosimo De, and De Bari, Cosimo

Abstract

Objective: We aimed to understand the role of the transcriptional co-factor Yes-associated protein (Yap) in the molecular pathway underpinning the pathogenic transformation of synovial fibroblasts (SF) in rheumatoid arthritis (RA) to become invasive and cause joint destruction.Methods: Synovium from patients with RA and mice with antigen-induced arthritis (AIA) was analysed by immunostaining and qRT-PCR. SF were targeted using Pdgfrα-CreER and Gdf5-Cre mice, crossed with fluorescent reporters for cell tracing and Yap-flox mice for conditional Yap ablation. Fibroblast phenotypes were analysed by flow cytometry, and arthritis severity was assessed by histology. Yap activation was detected using Yap-Tead reporter cells and Yap-Snail interaction by proximity ligation assay. SF invasiveness was analysed using matrigel-coated transwells.Results: Yap, its binding partner Snail and downstream target connective tissue growth factor were upregulated in hyperplastic human RA and in mouse AIA synovium, with Yap detected in SF but not macrophages. Lineage tracing showed polyclonal expansion of Pdgfrα-expressing SF during AIA, with predominant expansion of the Gdf5-lineage SF subpopulation descending from the embryonic joint interzone. Gdf5-lineage SF showed increased expression of Yap and adopted an erosive phenotype (podoplanin+Thy-1 cell surface antigen-), invading cartilage and bone. Conditional ablation of Yap in Gdf5-lineage cells or Pdgfrα-expressing fibroblasts ameliorated AIA. Interleukin (IL)-6, but not tumour necrosis factor alpha (TNF-α) or IL-1β, Jak-dependently activated Yap and induced Yap-Snail interaction. SF invasiveness induced by IL-6 stimulation or Snail overexpression was prevented by Yap knockdown, showing a critical role for Yap in SF transformation in RA.Conclusions: Our findings uncover the IL-6-Yap-Snail signalling axis in pathogenic SF in inflammatory arthritis. [ABSTRACT FROM AUTHOR]

Published
2022
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14. All-optical switching in rubidium vapor

Author

Dawes, Andrew M.C., Illing, Lucas, Clark, Susan M., and Gauthier, Daniel J.

Subjects
Computer networks -- Usage, Information networks -- Usage, Optoelectronic devices -- Research -- Usage, Quantum computing -- Research -- Usage, Science and technology, Optoelectronic device, Usage, Research
Abstract

We report on an all-optical switch that operates at low light levels. It consists of laser beams counterpropagating through a warm rubidium vapor that induce an off-axis optical pattern. A switching laser beam causes this pattern to rotate even when the power in the switching beam is much lower than the power in the pattern. The observed switching energy density is very low, suggesting that the switch might operate at the single-photon level with system optimization. This approach opens the possibility of realizing a single-photon switch for quantum information networks and for improving transparent optical telecommunication networks., An important component of high-speed optical communication networks is an all-optical switch, where an incoming 'switching' beam redirects other beams through light-by-light scattering in a nonlinear optical material (1, 2). [...]

Published
2005

15. Microfiche Readers: A Purchase and Allocation Formula.

Author

Clark, Susan M.

Abstract

Discusses a formula for determining number of microfiche readers needed in public libraries based on a Los Angeles County Public Library study weighing library size, user population, and information disseminating activity. Data on number of microfiche readers available to public in randomly selected Canadian public libraries are presented. Thirteen sources are listed. (EJS)

Published
1984

18. Ultrafast control of donor-bound electron spins with single detuned optical pulses.

Author

Fu, Kai-Mei C., Clark, Susan M., Santori, Charles, Stanley, Colin R., Holland, M. C., and Yamamoto, Yoshihisa

Subjects
*ELECTRON paramagnetic resonance, *SPINTRONICS, *ATOMIC spectroscopy, *QUANTUM efficiency, *SUPERCONDUCTORS
Abstract

The ability to control spins in semiconductors is important in a variety of fields, including spintronics and quantum information processing. Due to the potentially fast dephasing times of spins in the solid state, spin control operating on the picosecond timescale, or faster, may be necessary. Such speeds—which are not possible to reach with standard electron spin resonance techniques based on microwave sources—can be attained with broadband optical pulses. One promising ultrafast technique uses single broadband pulses detuned from resonance in a three-level Λ system. This technique is robust against optical-pulse imperfections and does not require a fixed optical reference phase. Here we demonstrate, theoretically and experimentally, the principle of coherent manipulation of spins using this approach. Spin rotations with areas exceeding π/4 for a single pulse and π/2 for two pulses are achieved for donor-bound electrons. This technique might find applications from basic solid-state electron spin resonance spectroscopy to arbitrary single-qubit rotations and bang–bang control for quantum computation. [ABSTRACT FROM AUTHOR]

Published
2008
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20. Human Mesenchymal Stromal Cells Enhance Cartilage Healing in a Murine Joint Surface Injury Model.

Author

Perry, Jade, Roelofs, Anke J., Mennan, Claire, McCarthy, Helen S., Richmond, Alison, Clark, Susan M., Riemen, Anna H. K., Wright, Karina, De Bari, Cosimo, and Roberts, Sally

Subjects
STROMAL cells, CARTILAGE cells, JOINT injuries, HEALING, UMBILICAL cord, KNEE, CARTILAGE
Abstract

Human umbilical cord (hUC)- or bone marrow (hBM)-derived mesenchymal stromal cells (MSCs) were evaluated as an allogeneic source of cells for cartilage repair. We aimed to determine if they could enhance healing of chondral defects with or without the recruitment of endogenous cells. hMSCs were applied into a focal joint surface injury in knees of adult mice expressing tdTomato fluorescent protein in cells descending from Gdf5-expressing embryonic joint interzone cells. Three experimental groups were used: (i) hUC-MSCs, (ii) hBM-MSCs and (iii) PBS (vehicle) without cells. Cartilage repair was assessed after 8 weeks and tdTomato-expressing cells were detected by immunostaining. Plasma levels of pro-inflammatory mediators and other markers were measured by electrochemiluminescence. Both hUC-MSC (n = 14, p = 0.009) and hBM-MSC (n = 13, p = 0.006) treatment groups had significantly improved cartilage repair compared to controls (n = 18). While hMSCs were not detectable in the repair tissue at 8 weeks post-implantation, increased endogenous Gdf5-lineage cells were detected in repair tissue of hUC-MSC-treated mice. This xenogeneic study indicates that hMSCs enhance intrinsic cartilage repair mechanisms in mice. Hence, hMSCs, particularly the more proliferative hUC-MSCs, could represent an attractive allogeneic cell population for treating patients with chondral defects and perhaps prevent the onset and progression of osteoarthritis. [ABSTRACT FROM AUTHOR]

Published
2021
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21. STUDENTS' PARTICIPATION IN THE MIXED-AGE COLLEGE CLASSROOM.

Author

Jay R., Howard, Short, Lillard B., and Clark, Susan M.

Subjects
CLASSROOM management, CLASSROOMS, TEACHING, GENDER, CLASS size
Abstract

Previous research regarding students' verbal participation in the college classroom has focused largely on gender and class size. Using a triangulation of methods (observation, survey, and interview), this study, conducted at an extension campus of a large state university, examines the impact of students' age on classroom discussion. Age, gender, attendance, week in the semester, and time of day are found to be significant determinants of verbal participation. The results indicate a "consolidation of responsibility" for participation. Students' reasons for their lack of participation are examined, as are their attitudes toward "talkative" students. Suggestions are offered for increasing participation. [ABSTRACT FROM AUTHOR]

Published
1996
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24. Joint morphogenetic cells in the adult mammalian synovium.

Author

Roelofs, Anke J., Zupan, Janja, Riemen, Anna H. K., Kania, Karolina, Ansboro, Sharon, White, Nathan, Clark, Susan M., and De Bari, Cosimo

Abstract

The stem cells that safeguard synovial joints in adulthood are undefined. Studies on mesenchymal stromal/stem cells (MSCs) have mainly focused on bone marrow. Here we show that lineage tracing of Gdf5-expressing joint interzone cells identifies in adult mouse synovium an MSC population largely negative for the skeletal stem cell markers Nestin-GFP, Leptin receptor and Gremlin1. Following cartilage injury, Gdf5-lineage cells underpin synovial hyperplasia through proliferation, are recruited to a Nestin-GFPhigh perivascular population, and contribute to cartilage repair. The transcriptional co-factor Yap is upregulated after injury, and its conditional ablation in Gdf5-lineage cells prevents synovial lining hyperplasia and decreases contribution of Gdf5-lineage cells to cartilage repair. Cultured Gdf5-lineage cells exhibit progenitor activity for stable chondrocytes and are able to self-organize three-dimensionally to form a synovial lining-like layer. Finally, human synovial MSCs transduced with Bmp7 display morphogenetic properties by patterning a joint-like organ in vivo. Our findings further the understanding of the skeletal stem/progenitor cells in adult life. [ABSTRACT FROM AUTHOR]

Published
2017
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