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11 results on '"Andrew Schaffer"'

1. Scalable Multispecies Ion Transport in a Grid-Based Surface-Electrode Trap

Author

Robert D. Delaney, Lucas R. Sletten, Matthew J. Cich, Brian Estey, Maya I. Fabrikant, David Hayes, Ian M. Hoffman, James Hostetter, Christopher Langer, Steven A. Moses, Abigail R. Perry, Timothy A. Peterson, Andrew Schaffer, Curtis Volin, Grahame Vittorini, and William Cody Burton

Subjects
Physics, QC1-999
Abstract

Quantum processors based on linear arrays of trapped ions have achieved exceptional performance, but scaling to large qubit numbers requires realizing two-dimensional ion arrays as envisioned in the quantum charge-coupled device (QCCD) architecture. Here, we present a scalable method for the control of ion crystals in a grid-based surface-electrode Paul trap and characterize it in the context of transport operations that sort and reorder multispecies crystals. By combining cowiring of control electrodes at translationally symmetric locations in each grid site with the sitewise ability to exchange the voltages applied to two special electrodes gated by a binary input, site-dependent operations can be achieved using only a fixed number of analog voltage signals and a single digital input per site. In two separate experimental systems containing nominally identical grid traps, one using ^{171}Yb^{+}-^{138}Ba^{+} crystals and the other ^{137}Ba^{+}-^{88}Sr^{+}, we demonstrate this method by characterizing the conditional intrasite crystal reorder and the conditional exchange of ions between adjacent sites on the grid. Averaged across a multisite region of interest, we measure subquanta motional excitation in the axial in-phase and out-of-phase modes of the crystals following these operations at exchange rates of 2.5 kHz. In this initial demonstration, the logic controlling the voltage exchange occurs in software, but the applied signals mimic a proposed hardware implementation using crossover switches. These techniques can be further extended to implement other conditional operations in the QCCD architecture such as gates, initialization, and measurement.

Published
2024
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3. Ultrafast optics with a mode-locked erbium fiber laser in the undergraduate laboratory

Author

Daniel Mohr, Austin Riedemann, Connor Fredrick, Andrew Thomas, Nathan Parks, Andrew Schaffer, Chad W. Hoyt, Ella Sievert, Daniel Upcraft, and R. Jason Jones

Subjects
Physics, business.industry, Autocorrelator, Physics::Optics, General Physics and Astronomy, Michelson interferometer, Pulse duration, chemistry.chemical_element, Grating, law.invention, Pulse (physics), Erbium, Optics, chemistry, law, Pulse compression, Fiber laser, business
Abstract

We describe an ultrafast optics laboratory comprising a mode-locked erbium fiber laser, autocorrelation measurements, and a free-space parallel grating dispersion compensation apparatus. The gain spectrum of Er fiber provides a broad bandwidth capable of supporting sub-100 fs pulses centered near a wavelength of 1550 nm. The fiber laser design used here produces a train of pulses at a repetition rate of 55 MHz with pulse duration as short as 108 fs. The pulse duration is measured with a homebuilt autocorrelator using a simple Michelson interferometer that takes advantage of the two-photon nonlinear response of a common silicon photodiode. To compensate for temporal stretching of the short pulse due to group velocity dispersion in the fiber, an apparatus based on a pair of parallel gratings is used for pulse compression. A detailed part that lists in the supplementary material includes previously owned and common parts used by the telecommunications industry, which helps decrease costs of the laboratory. This provides a cost-effective way to introduce the principles of ultrafast optics to undergraduate laboratories.

Published
2021

4. Risk Factors for Repeat Infection and Mortality After Extraction of Infected Cardiovascular Implantable Electronic Devices

Author

Christopher R. Ellis, George H. Crossley, Andrew Schaffer, Asad A. Aboud, Neil Phillips, Benjamin Holmes, William G. Stevenson, Caleb A. Norton, Travis D. Richardson, Ryohsuke Narui, Zachary T. Yoneda, Jay A. Montgomery, Alex Tinianow, and Ikutaro Nakajima

Subjects
Staphylococcus aureus, medicine.medical_specialty, Prosthesis-Related Infections, medicine.medical_treatment, 030204 cardiovascular system & hematology, medicine.disease_cause, Sepsis, 03 medical and health sciences, 0302 clinical medicine, Risk Factors, Internal medicine, Humans, Medicine, 030212 general & internal medicine, Major complication, Retrospective Studies, business.industry, medicine.disease, Defibrillators, Implantable, Ventricular assist device, Infective endocarditis, Heart failure, Electronics, business, Kidney disease, Lead extraction
Abstract

Objectives This study sought to investigate the factors associated with repeat infection following lead extraction procedures. Background Although lead extraction is an essential therapy for patients with cardiovascular implantable electronic device (CIED) infection, repeat infection still occurs in some patients. Methods The authors reviewed data for consecutive patients who underwent extraction of infected CIEDs from August 2003 to May 2019. Repeat infection was defined as infective endocarditis, sepsis with no alternative focus, or pocket infection after extraction of infected CIEDs. Results Extraction of infected CIEDs was performed in 496 patients. The most commonly implicated pathogen was Staphylococcus aureus (n = 188). In 449 patients (90.5%), all leads were completely extracted using only transvenous techniques. Thirty-three patients (6.7%) underwent surgical lead extraction, and 14 (2.8%) had retained leads or lead components. After a median follow-up of 352 [40 to 1,255] days after CIED extraction, 144 patients (29.0%) died. Repeat infection occurred in 47 patients (9.5%) with the median time from the extraction to repeat infection of 103 [45 to 214] days. In multivariable analysis, presence of a left ventricular assist device, younger age at extraction, and S. aureus infection were independent predictors of repeat infection. Additionally, chronic kidney disease, congestive heart failure, presence of septic emboli, S. aureus infection, and occurrence of major complications were independent predictors of increased mortality. Conclusions Patients with S. aureus infection have a high risk of repeat infection and poor prognosis after CIED extraction. Repeat infection is also predicted by younger age and the presence of a left ventricular assist device, whereas mortality was predicted by congestive heart failure, chronic kidney disease, and septic emboli.

Published
2021

8. Quantum hybrid optomechanical inertial sensing

Author

Felipe Guzman, Logan Richardson, A. S. Hines, Andrew Schaffer, and Brian P. Anderson

Subjects
Atom interferometer, Physics - Instrumentation and Detectors, Inertial frame of reference, Atomic Physics (physics.atom-ph), FOS: Physical sciences, Physics::Optics, 01 natural sciences, Physics - Atomic Physics, 010309 optics, Optics, Ultracold atom, 0103 physical sciences, Astronomical interferometer, Physics::Atomic Physics, Electrical and Electronic Engineering, Engineering (miscellaneous), Condensed Matter::Quantum Gases, Physics, Quantum Physics, business.industry, Instrumentation and Detectors (physics.ins-det), Sensor fusion, Noise floor, Atomic and Molecular Physics, and Optics, Retroreflector, Interferometry, Quantum Physics (quant-ph), business, Physics - Optics, Optics (physics.optics)
Abstract

We discuss the design of quantum hybrid inertial sensor that combines an optomechanical inertial sensor with the retroreflector of a cold atom interferometer. This sensor fusion approach provides absolute and high-accuracy measurements with cold atom interferometers, while utilizing the optomechanical inertial sensor at frequencies above the repetition rate of the atom interferometer. This improves the overall measurement bandwidth as well as the robustness and field deployment capabilities of these systems. We evaluate which parameters yield an optimal acceleration sensitivity, from which we anticipate a noise floor at nano- g levels from DC to 1 kHz.

Published
2020

9. Learning Management in a Crisis: A Service Learning Response to September 11, 2001

Author

R. Andrew Schaffer

Subjects
Class (computer programming), Medical education, Management development, Higher education, business.industry, 05 social sciences, Service-learning, 050301 education, Crisis management, General Business, Management and Accounting, Experiential learning, Education, 0502 economics and business, Pedagogy, ComputingMilieux_COMPUTERSANDEDUCATION, Learning Management, Psychology, business, 0503 education, Curriculum, 050203 business & management
Abstract

This article describes a service learning project implemented midsemester in response to the September 11, 2001, attacks. The project applied course topics while allowing students to positively channel their anxiety. Students developed and implemented a community-wide effort to collect care packages for U.S. troops deployed to Afghanistan. The article presents the project’s evolution, successes, and problems. The pros and cons of service learning through changing a course midsemester are also discussed. This project description may be instructive to readers who are contemplating service learning class projects. It should also be of interest to instructors who sense the need to change a course midsemester.

Published
2004

10. Geotechnical Design and Instrumentation of an Anchored Cofferdam, Point Marion Lock, Pennsylvania

Author

John A. Gerlach, Andrew Schaffer, and Brian H. Greene

Subjects
Engineering, Environmental Engineering, business.industry, Excavation, Geotechnical Engineering and Engineering Geology, Load cell, Lock (computer science), Earth and Planetary Sciences (miscellaneous), Geotechnical engineering, Stage (hydrology), Instrumentation (computer programming), Inclinometer, business, Cofferdam, Shear strength (discontinuity)
Abstract

Point Marion Lock was designed to replace an existing navigation lock that has been in service on the Monongahela River near the Pennsylvania-West Virginia border for some 67 years. As a result of the close proximity of the planned excavation for the new lock, the land wall of the existing lock required extensive stabilization to permit it to be utilized as the river arm of the project cofferdam. Installation of 471 prestressed rock anchors was closely linked with each progressive stage of soil and rock excavation required to build the new lock. Adverse geologic conditions affected cofferdam stability in that the land wall of the existing operating lock was founded on weak sedimentary rocks exhibiting very low shear strength. Critical to the successful performance of the cofferdam was the design and installation of an extensive instrumentation program. A vast array of movement detection systems including inclinometers, alignment pins, shear strips, tilt plates and load cells were interfaced with both on-site and off-site computers to provide real-time monitoring of cofferdam performance throughout the excavation process. Data from instrumentation yielded invaluable information needed to make necessary adjustments in on-going construction activities including excavation and rock anchor installation.

Published
1993

11. Symmetries of tensors

Author

Berget, Andrew Schaffer

Subjects
Algebraic Combinatorics, Matroids, Multilinear Algebra, Representation Theory, Schur-weyl duality, Tensors, Mathematics
Abstract

This thesis studies the symmetries of a fixed tensors by looking at certain group representations this tensor generates. We are particularly interested in the case that the tensor can be written as v 1 ⊗ · · · ⊗ v n , where the v i are selected from a complex vector space. The general linear group representation generated by such a tensor contains subtle information about the matroid M ( v ) of the vector configuration v 1 , · · ·, v n . To begin, we prove the basic results about representations of this form. We give two useful ways of describing these representations, one in terms of symmetric group representations, the other in terms of degeneracy loci over Grassmannians. Some of these results are equivalent to results that have appeared in the literature. When this is the case, we have given new, short proofs of the known results. We will prove that the multiplicities of hook shaped irreducibles in the representation generated by v 1 ⊗ · · · ⊗ v n are determined by the no broken circuit complex of M ( v ). To do this, we prove a much stronger result about the structure of vector subspace of Sym V spanned by the products Π i∈S v i , where S ranges over all subsets of [ n ]. The result states that this vector space has a direct sum decomposition that determines the Tutte polynomial of M ( v ). We will use a combinatorial basis of the vector space generated the products of the linear forms to completely describe the representation generated by a decomposable tensor when its matroid M ( v ) has rank two. Next we consider a representation of the symmetric group associated to every matroid. It is universal in the sense that if v 1 , . . . , v n is a realization of the matroid then the representation for the matroid provides non-trivial restrictions on the decomposition of the representation generated by the tensor product of the vectors. A complete combinatorial characterization of this representation is proven for parallel extensions of Schubert matroids. We also describe the multiplicity of hook shapes in this representation for all matroids. The contents of this thesis will always be freely available online in the most current version. Simply search for my name and the title of the thesis. Please do not ever pay for this document.

Published
2009

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