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Displaying 7051 - 7075 of 73881

Hybrid InP and SiN integration of an octave-spanning frequency comb

February 2, 2021
Author(s)
Travis Briles, Su P. Yu, Lin Chang, Chao Xiang, Joel Guo, David Kinghorn, Gregory Moille, Kartik Srinivasan, John E. Bowers, Scott Papp
Implementing optical-frequency combs with integrated photonics will enable wider use of precision timing signals. Here, we explore the generation of an octave-span, Kerr-microresonator frequency comb, using hybrid integration of an InP distributed-feedback

Under-reporting of greenhouse gas emissions in U.S. cities

February 2, 2021
Author(s)
Kimberly Mueller, Kevin R. Gurney, Thomas Lauvaux, Geoffrey Roest, Jianming Liang, Yang Song
Cities dominate greenhouse gas (GHG) emissions and are emerging as climate mitigation leaders. Many have generated self-reported GHG emission inventories (SRIs) but their accuracy and value to emissions mitigation policymaking is untested. The Vulcan

Absolute energies and emission line shapes of the x-ray lines of lanthanide metals

February 1, 2021
Author(s)
Joseph Fowler, Galen O'Neil, Bradley K. Alpert, Douglas Bennett, Edward V. Denison, William Doriese, Gene Hilton, Lawrence T. Hudson, Young I. Joe, Kelsey Morgan, Daniel Schmidt, Daniel Swetz, Csilla I. Szabo-Foster, Joel Ullom
We use an array of transition-edge sensors, cryogenic microcalorimeters with 4 eV energy resolution, to measure the x-ray emission-line profiles of four elements of the lanthanide series: praseodymium, neodymium, terbium, and holmium. The spectrometer also

Algorithms and Data Structures for New Models of Computation

February 1, 2021
Author(s)
Paul Black, David W. Flater, Irena Bojanova
In the early days of computer science, the community settled on a simple standard model of computing and a basic canon of general purpose algorithms and data structures suited to that model. With isochronous computing, heterogeneous multiprocessors, flash

Electrolyte Layer Gas Triggers Cathode Potential Instability in CO2 Electrolyzers

February 1, 2021
Author(s)
Kevin Krause, Jason K. Lee, ChungHyuk Lee, Hisan W. Shafaque, Pascal J. Kim, Kieran F. Fahy, Pranay Shrestha, Jacob LaManna, Elias Baltic, David Jacobson, Daniel Hussey, Aimy Bazylak
Electrolytic carbon dioxide (CO2) reduction is becoming increasingly promising for managing anthropogenic CO2 emissions; however, issues related to unstable performance and ineffective gas management are still not fully accounted for in the field. Here, we

Implementation of a Self-Consistent Slab Model of Bilayer Structure in the SasView Suite

February 1, 2021
Author(s)
Luoxi Tan, James G. Elkins, Brian H. Davison, Elizabeth Kelley, Jonathan Nickels
Slab models are simple and useful structural descriptions which have long been used to describe lyotropic lamellar phases, such as lipid bilayers. Typically, slab models break a bilayer structure into three pieces, an inner solvent-free core and two

Association between Gestational Phthalate Exposure and Newborn Head Circumference; Impacts by Race and Sex

January 29, 2021
Author(s)
Michael S. Bloom, E. Valachovic, Thoin Begum, Rebecca J. Wineland, Abby G. Wenzel, John W. Brock, Elizabeth R. Unal, Lori Cruze, Roger B. Newman, John Kucklick
Abstract Observational and experimental studies report associations between gestational phthalate exposure and fetal development, yet few data exist to characterize phthalate effects on head circumference (HC) or to estimate the impact of race or sex. To

Electro-optic frequency combs for rapid interrogation in cavity optomechanics

January 29, 2021
Author(s)
David Long, Benjamin J. Reschovsky, Feng Zhou, Yiliang Bao, Thomas W. LeBrun, Jason Gorman
Electro-optic frequency combs were employed to rapidly interrogate an optomechanical sensor, demonstrating spectral resolution substantially exceeding that possible with a mode-locked frequency comb. Frequency combs were generated using an integrated

Magneto-optical trapping using planar optics

January 29, 2021
Author(s)
William McGehee, Wenqi Zhu, Daniel Barker, Daron Westly, Alexander Yulaev, Nikolai Klimov, Amit Agrawal, Stephen Eckel, Vladimir Aksyuk, Jabez McClelland
Laser-cooled atoms are a key component of many calibration-free measurement platforms— including clocks, gyroscopes, and gravimeters—and are a promising technology for quantum networking and quantum computing. The optics and vacuum hardware required to

Microwaves in Quantum Computing

January 29, 2021
Author(s)
Joseph C. Bardin, Daniel Slichter, David J. Reilly
The growing field of quantum computing relies on a broad range of microwave technologies, and has spurred development of microwave devices and methods in new operating regimes. Here we review the use of microwave signals and systems in quantum computing

Quantum dot lasers - history and future prospects

January 29, 2021
Author(s)
Richard Mirin, John E. Bowers, Justin Norman
We describe the initial efforts to use molecular beam epitaxy to grow InAs quantum dots on GaAs via the Stranski-Krastanow transition. We then discuss the initial efforts to use these quantum dots to demonstrate quantum dot lasers. We discuss the

Recent Industrial Roadmaps to Enable Smart Manufacturing of Biopharmaceuticals

January 29, 2021
Author(s)
Sheng Lin-Gibson, Vijay Srinivasan
Biopharmaceutical manufacturing is an evolving industry with great potential to improve public health, but laden with technical and operational challenges. It has many features that are similar to other smart manufacturing industries, but it also has some
Displaying 7051 - 7075 of 73881
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