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7,240 results on '"Marshall, Michael"'

1. Physical-mass calculation of $\rho(770)$ and $K^*(892)$ resonance parameters via $\pi \pi$ and $K \pi$ scattering amplitudes from lattice QCD

Author

Boyle, Peter, Erben, Felix, Gülpers, Vera, Hansen, Maxwell T., Joswig, Fabian, Lachini, Nelson Pitanga, Marshall, Michael, and Portelli, Antonin

Subjects
High Energy Physics - Lattice, High Energy Physics - Phenomenology
Abstract

We present our study of the $\rho(770)$ and $K^*(892)$ resonances from lattice quantum chromodynamics (QCD) employing domain-wall fermions at physical quark masses. We determine the finite-volume energy spectrum in various momentum frames and obtain phase-shift parameterizations via the L\"uscher formalism, and as a final step the complex resonance poles of the $\pi \pi$ and $K \pi$ elastic scattering amplitudes via an analytical continuation of the models. By sampling a large number of representative sets of underlying energy-level fits, we also assign a systematic uncertainty to our final results. This is a significant extension to data-driven analysis methods that have been used in lattice QCD to date, due to the two-step nature of the formalism. Our final pole positions, $M+i\Gamma/2$, with all statistical and systematic errors exposed, are $M_{K^{*}} = 893(2)(8)(54)(2)~\mathrm{MeV}$ and $\Gamma_{K^{*}} = 51(2)(11)(3)(0)~\mathrm{MeV}$ for the $K^*(892)$ resonance and $M_{\rho} = 796(5)(15)(48)(2)~\mathrm{MeV}$ and $\Gamma_{\rho} = 192(10)(28)(12)(0)~\mathrm{MeV}$ for the $\rho(770)$ resonance. The four differently grouped sources of uncertainties are, in the order of occurrence: statistical, data-driven systematic, an estimation of systematic effects beyond our computation (dominated by the fact that we employ a single lattice spacing), and the error from the scale-setting uncertainty on our ensemble.

Published
2024

2. Light and strange vector resonances from lattice QCD at physical quark masses

Author

Boyle, Peter, Erben, Felix, Gülpers, Vera, Hansen, Maxwell T., Joswig, Fabian, Lachini, Nelson Pitanga, Marshall, Michael, and Portelli, Antonin

Subjects
High Energy Physics - Lattice, High Energy Physics - Phenomenology
Abstract

We present the first ab initio calculation at physical quark masses of scattering amplitudes describing the lightest pseudoscalar mesons interacting via the strong force in the vector channel. Using lattice quantum chromodynamics, we postdict the defining parameters for two short-lived resonances, the $\rho(770)$ and $K^*(892)$, which manifest as complex energy poles in $\pi \pi$ and $K \pi$ scattering amplitudes, respectively. The calculation proceeds by first computing the finite-volume energy spectrum of the two-hadron systems, and then determining the amplitudes from the energies using the L\"uscher formalism. The error budget includes a data-driven systematic error, obtained by scanning possible fit ranges and fit models to extract the spectrum from Euclidean correlators, as well as the scattering amplitudes from the latter. The final results, obtained by analytically continuing multiple parameterizations into the complex energy plane, are $M_\rho = 796(5)(50)~\mathrm{MeV}$, $\Gamma_\rho = 192(10)(31)~\mathrm{MeV}$, $M_{K^*} = 893(2)(54)~\mathrm{MeV}$ and $\Gamma_{K^*} = 51(2)(11)~\mathrm{MeV}$, where the subscript indicates the resonance and $M$ and $\Gamma$ stand for the mass and width, respectively, and where the first bracket indicates the statistical and the second bracket the systematic uncertainty.

Published
2024

3. Digital damage?

Author

Marshall, Michael

Subjects
Information display systems -- Usage -- Psychological aspects -- Health aspects, Computers and children -- Psychological aspects -- Health aspects, Parent and child -- Psychological aspects -- Health aspects, Business, Science and technology
Abstract

There are few more contentious issues for parents than children's screen time. What does the evidence show about its effects? Michael Marshall investigates 'GET off your phone!' Most parents will [...]

Published
2024

6. Grow slow

Author

Marshall, Michael

Subjects
Business, Science and technology
Abstract

Human childhood is uniquely protracted. How did it evolve to be that way and why, wonders Michael Marshall I WAS going to start this article another way. But that was [...]

Published
2024

7. Towards $K\pi$ scattering with domain-wall fermions at the physical point using distillation

Author

Lachini, Nelson Pitanga, Boyle, Peter, Erben, Felix, Marshall, Michael, and Portelli, Antonin

Subjects
High Energy Physics - Lattice
Abstract

Resonances play an important role in Standard Model phenomenology. In particular, hadronic resonances feature in $B$ and $D$ decays, which can be central for New Physics searches. Lattice QCD simulations combined with the finite-volume method can nowadays be used to reliably study strongly coupled scattering processes such as $K\pi$ and thus the hadronic resonance $K^*$. In this work, we approach $K\pi$ scattering on a domain-wall $N_f = 2+1$ RBC-UKQCD ensemble at a physical pion mass. We use the distillation method within Grid and Hadrons software to compute sets of operator basis. That allows solving an eigenvalue problem to extract the low-energy finite-volume spectra, which are then translated into scattering information. We update the state of the calculation by reviewing the smearing process, outlining the variational analysis and concluding by showing preliminary data., Comment: arXiv admin note: substantial text overlap with arXiv:2112.09804

Published
2022

8. Fluorescence lifetime of injected indocyanine green as a universal marker of solid tumours in patients

Author

Pal, Rahul, Lwin, Thinzar M., Krishnamoorthy, Murali, Collins, Hannah R., Chan, Corey D., Prilutskiy, Andrey, Nasrallah, MacLean P., Dijkhuis, Tom H., Shukla, Shriya, Kendall, Amy L., Marshall, Michael S., Carp, Stefan A., Hung, Yin P., Shih, Angela R., Martinez-Lage, Maria, Zukerberg, Lawrence, Sadow, Peter M., Faquin, William C., Nahed, Brian V., Feng, Allen L., Emerick, Kevin S., Mieog, J. Sven D., Vahrmeijer, Alexander L., Rajasekaran, Karthik, Lee, John Y. K., Rankin, Kenneth S., Lozano-Calderon, Santiago, Varvares, Mark A., Tanabe, Kenneth K., and Kumar, Anand T. N.

Published
2023
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9. Playing with fire

Author

Marshall, Michael

Subjects
The Burning Earth: An Environmental History of the Last 500 Years (Nonfiction work) -- Amrith, Sunil, Books -- Book reviews, Business, Science and technology
Abstract

Book The Burning Earth Sunil Amrith(Allen Lane (UK); W. W. Norton (US)) There can be no victory in a war against nature, says the author of a must-read history of [...]

Published
2024

10. Information overload

Author

Marshall, Michael

Subjects
Nexus: A Brief History of Information Networks from the Stone Age to AI (Nonfiction work) -- Harari, Yuval Noah, Books -- Book reviews
Abstract

Book https://www.penguin.co.uk/books/451878/nexus-by-harari-yuval-noah/9781911717089 Yuval Noah Harari(Fern Press, out 10 September) The author of Sapiens has turned his attention to the information networks that shape our societies, and he is out of […]

Published
2024

11. A Lightweight Space-based Solar Power Generation and Transmission Satellite

Author

Abiri, Behrooz, Arya, Manan, Bohn, Florian, Fikes, Austin, Gal-Katziri, Matan, Gdoutos, Eleftherios, Goel, Ashish, Gonzalez, Pilar Espinet, Kelzenberg, Michael, Lee, Nicolas, Marshall, Michael A., Roy, Tatiana, Royer, Fabien, Warmann, Emily C., Vaidya, Nina, Vinogradova, Tatiana, Madonna, Richard, Atwater, Harry, Hajimiri, Ali, and Pellegrino, Sergio

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

We propose a novel design for a lightweight, high-performance space-based solar power array combined with power beaming capability for operation in geosynchronous orbit and transmission of power to Earth. We use a modular configuration of small, repeatable unit cells, called tiles, that each individually perform power collection, conversion, and transmission. Sunlight is collected via lightweight parabolic concentrators and converted to DC electric power with high efficiency III-V photovoltaics. Several CMOS integrated circuits within each tile generates and controls the phase of multiple independently-controlled microwave sources using the DC power. These sources are coupled to multiple radiating antennas which act as elements of a large phased array to beam the RF power to Earth. The power is sent to Earth at a frequency chosen in the range of 1-10 GHz and collected with ground-based rectennas at a local intensity no larger than ambient sunlight. We achieve significantly reduced mass compared to previous designs by taking advantage of solar concentration, current CMOS integrated circuit technology, and ultralight structural elements. Of note, the resulting satellite has no movable parts once it is fully deployed and all beam steering is done electronically. Our design is safe, scalable, and able to be deployed and tested with progressively larger configurations starting with a single unit cell that could fit on a cube satellite. The design reported on here has an areal mass density of 160 g/m2 and an end-to-end efficiency of 7-14%. We believe this is a significant step forward to the realization of space-based solar power, a concept once of science fiction.

Published
2022

13. More than skin deep

Author

Marshall, Michael

Subjects
Skin -- Care and treatment, Hypertension, Business, Science and technology
Abstract

It's not just a vanity project – looking after your skin could improve your health and longevity in unexpected ways, discovers Michael Marshall IN WINTER, the backs of your hands [...]

Published
2024

14. Fine old cannibals

Author

Marshall, Michael

Subjects
Business, Science and technology
Abstract

Humans have a very long history of eating each other, and they may have done so for all the right reasons, finds Michael Marshall IN https://www.newscientist.com/article/2160467-early-briton-from-10000-years-ago-had-dark-skin-and-blue-eyes/ in Cheddar Gorge, south-west [...]

Published
2024

15. An olive a day…

Author

Marshall, Michael

Subjects
Olive oil, Business, Science and technology
Abstract

Decades of research suggest a Mediterranean way of eating carries important health benefits. We are finally starting to figure out why, finds Michael Marshall WHEN it comes to healthier diets, [...]

Published
2024

18. Semileptonic $D \rightarrow \pi \ell \nu$, $D \rightarrow K \ell \nu$ and $D_s \rightarrow K \ell \nu$ decays with 2+1f domain wall fermions

Author

Boyle, Peter, Del Debbio, Luigi, Erben, Felix, Flynn, Jonathan, Jüttner, Andreas, Marshall, Michael, Portelli, Antonin, Tsang, J. Tobias, and Witzel, Oliver

Subjects
High Energy Physics - Lattice
Abstract

We present the status of our project to calculate $D \to \pi \ell \nu$, $D \to K \ell \nu$ and $D_s \to K \ell \nu$ semileptonic form factors using domain wall fermions for both heavy and light quarks. Our computations are performed using RBC/UKQCD's set of 2+1 flavour domain wall fermion and Iwasaki gauge field ensembles. We plan to calculate three-point functions covering the full, physically allowed kinematic range. Given that the signal decays faster than the noise, unambiguously and reliably extracting the ground state is critical for success. We include an analysis of operator diagonalisation within several possible $2 \times 2$ operator bases and find an admixture of gauged fixed wall and $\mathbb{Z} \left( 2 \right)$ wall sources to be acceptable at both zero and non-zero momentum. Initial results for semileptonic form factors are presented for first ensembles., Comment: 11 pages, 9 figures, to be published in Proceedings of Science, The 38th International Symposium on Lattice Field Theory

Published
2022

20. $K \pi$ scattering at physical pion mass using distillation

Author

Lachini, Nelson Pitanga, Boyle, Peter, Erben, Felix, Marshall, Michael, and Portelli, Antonin

Subjects
High Energy Physics - Lattice
Abstract

Scattering at physical pion mass is still an exploratory field in lattice QCD. This generally involves the extraction of excited states through multi-particle correlators on systems with resonances. In that context, distillation has been demonstrated to be effective both as a smearing kernel and a computational tool. Motivated by the study of the smearing profile of the distillation operator, we compare stochastic and exact distillation cases for different numbers of Laplacian eigenvectors using an RBC-UKQCD $N_f=2+1$ domain-wall fermion lattice with a physical pion mass.

Published
2021

21. Outsourcing R & D: Panacea or pipe dream?

Author

Marshall, Michael L. and Hazell, J. Eric

Subjects
CONTRACTED SERVICES, LABORATORIES, RESEARCH AND DEVELOPMENT - Defense Dept - United States
Abstract

illus por bibliog

Published
2000

22. Private sector downsizing: Implications for DOD

Author

Marshall, Michael L. and Hazell, J. Eric

Subjects
MANAGEMENT IMPROVEMENT, RESOURCE MANAGEMENT, PERSONNEL - Defense Dept - United States, REDUCTION IN FORCE
Abstract

por bibliog

Published
2000

24. BSM $B - \bar{B}$ mixing on JLQCD and RBC/UKQCD $N_f=2+1$ DWF ensembles

Author

Boyle, Peter, Del Debbio, Luigi, Erben, Felix, Jüttner, Andreas, Kaneko, Takashi, Marshall, Michael, Portelli, Antonin, Tsang, J Tobias, and Witzel, Oliver

Subjects
High Energy Physics - Lattice
Abstract

We are presenting our ongoing Lattice QCD study on $B - \bar{B}$ mixing on several RBC/UKQCD and JLQCD ensembles with 2+1 dynamical-flavour domain-wall fermions, including physical-pion-mass ensembles. We are extracting bag parameters $B_{B_d}$ and $B_{B_s}$ using the full 5-mixing-operator basis to study both Standard-Model mixing as well as Beyond the Standard Model mixing, using a fully correlated combined fit to two-point functions and ratios of three-point and two-point functions. Using 15 different lattice ensembles we are simulating a range of heavy-quark masses from below the charm-quark mass to just below the bottom-quark mass.

Published
2021

27. Ancient plant artefact reveals how humans reached Australia

Author

Marshall, Michael

Subjects
Antiquities -- Discovery and exploration, Excavations (Archaeology) -- Environmental aspects -- Indonesia -- Australia, Business, Science and technology
Abstract

A TINY chunk of plant resin shows that people were living on an island in eastern Indonesia at least 55,000 years ago – indicating the likely route that modern humans [...]

Published
2024

28. Smallest adult hominin ever found

Author

Marshall, Michael

Subjects
Flores (Indonesia) -- History, Fossil hominids -- Identification and classification -- Discovery and exploration, Business, Science and technology
Abstract

An arm bone from an ancient human that lived 700,000 years ago adds a new piece to the puzzle of Homo floresiensis , the so-called hobbits that lived on the [...]

Published
2024

29. Blue sheep and snow leopards were on the menu for ancient human group

Author

Marshall, Michael

Subjects
Prehistoric peoples -- Food and nutrition, Snow leopard -- Natural history -- Environmental aspects, Tibetan Plateau -- Environmental aspects
Abstract

ANCIENT humans known as Denisovans hunted a wide range of animals on the Tibetan plateau, including blue sheep, yaks and snow leopards. This varied diet enabled them to thrive in […]

Published
2024

30. A Neanderthal with Down's syndrome

Author

Marshall, Michael

Subjects
Neanderthals -- Health aspects, Down syndrome -- Diagnosis, Business, Science and technology
Abstract

A fossil bone displaying features of Down's syndrome came from a Neanderthal child, adding to evidence that these extinct humans cared for members of their community, finds Michael Marshall A [...]

Published
2024

31. Long covid, four years on

Author

Marshall, Michael

Subjects
Business, Science and technology
Abstract

With millions of people affected by lingering symptoms after covid-19 infection, have we finally got a handle on this complex, post-viral condition and how to treat it, asks Michael Marshall [...]

Published
2023

32. Last of the ape-people

Author

Marshall, Michael

Subjects
Fossil hominids, Business, Science and technology
Abstract

Paranthropus was an ape-like hominin that lived on when Earth was increasingly dominated by early humans. What were the secrets to its survival, asks Michael Marshall IT ISN'T often that [...]

Published
2023

33. The elusive origins of life

Author

Marshall, Michael

Subjects
Business, Science and technology
Abstract

Seventy years ago, we were poised to understand how life on Earth began. Michael Marshall explains why the mystery endures, and how we're going to crack it HOW did life [...]

Published
2023

35. THE SMARTER WAY TO A FITTER YOU.

Author

Wade, Grace, Marshall, Michael, Woodford, James, Simms, Chris, Robson, David, Geddes, Linda, and de Lange, Catherine

Subjects
*MENSTRUAL cycle, *EXERCISE physiology, *PSYCHOLOGICAL techniques, *IRONMAN triathlons, *YOUNG adults, *SPORTS sciences, *HEART
Abstract

This article provides a comprehensive overview of exercise and its effects on the body and mind. It covers topics such as the benefits of exercise, the most efficient way to get fit, and the ideal amount of exercise for long-term health. The article also explores different types of exercise, including high-intensity interval training, and the potential risks of excessive exercise. It delves into the rise of online fitness apps and the psychological aspects of exercising alone versus in a group. Overall, this article offers valuable insights for individuals seeking to improve their fitness and provides guidance on incorporating exercise into their lives. It emphasizes the importance of starting slow and gradually increasing activity levels, as even small amounts of exercise can have significant long-term health benefits. The article also highlights the importance of physical activity for children's cognitive and physical development and encourages the establishment of a positive relationship with exercise from a young age. [Extracted from the article]

Published
2024
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36. In their dreams

Author

Marshall, Michael

Subjects
Spiders, Business, Science and technology
Abstract

Do other animals dream? And if so, what do their unconscious minds conjure while they're sleeping, asks Michael Marshall ONE autumn day in 2020, https://danielaroessler.weebly.com/ drove home with a car [...]

Published
2023

37. Atomic Precision Advanced Manufacturing for Digital Electronics

Author

Ward, Daniel R., Schmucker, Scott W., Anderson, Evan M., Bussmann, Ezra, Tracy, Lisa, Lu, Tzu-Ming, Maurer, Leon N., Baczewski, Andrew, Campbell, Deanna M., Marshall, Michael T., and Misra, Shashank

Subjects
Physics - Applied Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

An exponential increase in the performance of silicon microelectronics and the demand to manufacture in great volumes has created an ecosystem that requires increasingly complex tools to fabricate and characterize the next generation of chips. However, the cost to develop and produce the next generation of these tools has also risen exponentially, to the point where the risk associated with progressing to smaller feature sizes has created pain points throughout the ecosystem. The present challenge includes shrinking the smallest features from nanometers to atoms (10 nm corresponds to 30 silicon atoms). Relaxing the requirement for achieving scalable manufacturing creates the opportunity to evaluate ideas not one or two generations into the future, but at the absolute physical limit of atoms themselves. This article describes recent advances in atomic precision advanced manufacturing (APAM) that open the possibility of exploring opportunities in digital electronics. Doing so will require advancing the complexity of APAM devices and integrating APAM with CMOS.

Published
2020

38. Low Thermal Budget High-k/Metal Surface Gate for Buried Donor-Based Devices

Author

Anderson, Evan M., Campbell, DeAnna M., Maurer, Leon N., Baczewski, Andrew D., Marshall, Michael T., Lu, Tzu-Ming, Lu, Ping, Tracy, Lisa A., Schmucker, Scott W., Ward, Daniel R., and Misra, Shashank

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics
Abstract

Atomic precision advanced manufacturing (APAM) offers creation of donor devices in an atomically thin layer doped beyond the solid solubility limit, enabling unique device physics. This presents an opportunity to use APAM as a pathfinding platform to investigate digital electronics at the atomic limit. Scaling to smaller transistors is increasingly difficult and expensive, necessitating the investigation of alternative fabrication paths that extend to the atomic scale. APAM donor devices can be created using a scanning tunneling microscope (STM). However, these devices are not currently compatible with industry standard fabrication processes. There exists a tradeoff between low thermal budget (LT) processes to limit dopant diffusion and high thermal budget (HT) processes to grow defect-free layers of epitaxial Si and gate oxide. To this end, we have developed an LT epitaxial Si cap and LT deposited Al2O3 gate oxide integrated with an atomically precise single-electron transistor (SET) that we use as an electrometer to characterize the quality of the gate stack. The surface-gated SET exhibits the expected Coulomb blockade behavior. However, the leverage of the gate over the SET is limited by defects in the layers above the SET, including interfaces between the Si and oxide, and structural and chemical defects in the Si cap. We propose a more sophisticated gate stack and process flow that is predicted to improve performance in future atomic precision devices., Comment: Version accepted for open access publication in Journal of Physics: Materials. Added keywords, additional text to the abstract, additional discussion of interfaces, and additional references. Consolidated references into one section at the end of the document instead of one part for the main article and one part for the supplementary material

Published
2020
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39. An exploratory study of heavy-light semileptonic form factors using distillation

Author

Boyle, Peter, Erben, Felix, Marshall, Michael, hÓgáin, Fionn Ó, Portelli, Antonin, and Tsang, Justus Tobias

Subjects
High Energy Physics - Lattice
Abstract

We present our exploratory study with the aim of simulating heavy-light semileptonic form factors as part of the RBC-UKQCD charm (to bottom) physics programme. We are using a distillation-based setup as a strategy to get optimised plateaus in semileptonic $D_{(s)}$ and $B_{(s)}$ decays, and compare our results to form factors obtained from sequential $Z_2$-Wall propagators. The study is done in a centre-of-mass frame as well as in several moving frames. We use an $N_f=2+1$ domain wall fermion ensemble with a pion mass of $340$ MeV, with the aim of extending the study to a variety of other domain-wall ensembles, including physical-pion mass ensembles.

Published
2019

41. Welcome to the team

Author

Marshall, Michael

Subjects
Human remains (Archaeology) -- Discovery and exploration, Business, Science and technology
Abstract

Five years ago, our extended human family got a bit bigger with the announcement of a new species of hominin. What have we learned since, asks Michael Marshall ON 10 [...]

Published
2024

45. Molecular and clinicopathologic characteristics of gliomas with EP300::BCOR fusions

Author

Wu, Zhichao, Rajan, Sharika, Chung, Hye-Jung, Raffeld, Mark, Panneer Selvam, Pavalan, Schweizer, Leonille, Perry, Arie, Samuel, David, Giannini, Caterina, Ragunathan, Aditya, Frosch, Matthew P., Marshall, Michael S., Boué, Daniel R., Donev, Kliment, Neill, Stewart G., Fernandes, Igor, Resnick, Adam, Rood, Brian, Cummings, Thomas J., Buckley, Anne F., Szymanski, Linda, Neto, Osorio Lopes Abath, Zach, Leor, Colman, Howard, Cheshier, Samuel, Ziskin, Jennifer, Tyagi, Manoj, Capper, David, Abdullaev, Zied, Cimino, Patrick J., Quezado, Martha, Pratt, Drew, and Aldape, Kenneth

Published
2022
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