Search Results - "Hayward, T."

Intrinsic Nature of Stochastic Domain Wall Pinning Phenomena in Magnetic Nanowire Devices by Hayward, T. J.

“…Finite temperature micromagnetic simulations are used to probe stochastic domain wall pinning behaviours in magnetic nanowire devices. By exploring…”
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Defective macrophage phagocytosis of bacteria in COPD by Taylor, A E, Finney-Hayward, T K, Quint, J K, Thomas, C M R, Tudhope, S J, Wedzicha, J A, Barnes, P J, Donnelly, L E

“…Exacerbations of chronic obstructive pulmonary disease (COPD) are an increasing cause of hospitalisations and are associated with accelerated progression of…”
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Voltage-controlled superparamagnetic ensembles for low-power reservoir computing by Welbourne, A., Levy, A. L. R., Ellis, M. O. A., Chen, H., Thompson, M. J., Vasilaki, E., Allwood, D. A., Hayward, T. J.

“…We propose thermally driven, voltage-controlled superparamagnetic ensembles as low-energy platforms for hardware-based reservoir computing. In the proposed…”
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Probing the core of the strong nuclear interaction by Schmidt, A., Pybus, J. R., Weiss, R., Segarra, E. P., Hrnjic, A., Denniston, A., Hen, O., Piasetzky, E., Weinstein, L. B., Barnea, N., Strikman, M., Larionov, A., Higinbotham, D.

“…The strong nuclear interaction between nucleons (protons and neutrons) is the effective force that holds the atomic nucleus together. This force stems from…”
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Electron-beam energy reconstruction for neutrino oscillation measurements by Khachatryan, M., Papadopoulou, A., Ashkenazi, A., Hauenstein, F., Nambrath, A., Hrnjic, A., Weinstein, L. B., Hen, O., Piasetzky, E., Betancourt, M., Dytman, S., Mahn, K., Coloma, P.

“…Neutrinos exist in one of three types or ‘flavours’—electron, muon and tau neutrinos—and oscillate from one flavour to another when propagating through space…”
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A sound idea: Manipulating domain walls in magnetic nanowires using surface acoustic waves by Dean, J., Bryan, M. T., Cooper, J. D., Virbule, A., Cunningham, J. E., Hayward, T. J.

“…We propose a method of pinning and propagating domain walls in artificial multiferroic nanowires using electrically induced surface acoustic waves. Using…”
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Domain wall pinning for racetrack memory using exchange bias by Polenciuc, I., Vick, A. J., Allwood, D. A., Hayward, T. J., Vallejo-Fernandez, G., O'Grady, K., Hirohata, A.

“…The pinning of domain walls in ferromagnetic (F) wires is one possible technique for the creation of a solid state magnetic memory. Such a system has been…”
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Suppression of Stochastic Domain Wall Pinning Through Control of Gilbert Damping by Broomhall, T. J., Hayward, T. J.

“…Finite temperature micromagnetic simulations were used to investigate the magnetisation structure, propagation dynamics and stochastic pinning of domain walls…”
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A Micromagnetic Protocol for Qualitatively Predicting Stochastic Domain Wall Pinning by Omari, K. A., Hayward, T. J.

“…Understanding dynamically-induced stochastic switching effects in soft ferromagnetic nanowires is a critical challenge for realising spintronic devices with…”
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Reconfigurable reservoir computing in a magnetic metamaterial by Vidamour, I. T., Swindells, C., Venkat, G., Manneschi, L., Fry, P. W., Welbourne, A., Rowan-Robinson, R. M., Backes, D., Maccherozzi, F., Dhesi, S. S., Vasilaki, E., Allwood, D. A., Hayward, T. J.

“…In-materia reservoir computing (RC) leverages the intrinsic physical responses of functional materials to perform complex computational tasks. Magnetic…”
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Scientific computing plan for the ECCE detector at the Electron Ion Collider by Kauder, K., Akiba, Y., Albataineh, A., Amaryan, M., Arsene, I.C., Baker, M.D., Bashkanov, M., Berdnikov, V., Brash, E., Briscoe, W.J., Brooks, M., Bueltmann, S., Bukhari, M.H.S., Cheon, Y., Cheng, K.-Y., Chiu, M., Cormier, T., Cotton, C., Creekmore, S., Cuevas, C., Cunningham, J., Demarteau, M., Dupré, R., Durham, J.M., Ent, R., Frantz, J., Friscic, I., Gardner, S., Guo, A.Q., Ha, S.K., Haggerty, J., He, X., Hen, O., Hoballah, M., Hwang, K.Y., Hyde, C., Inaba, M., Iwata, T., Kay, S.J.D., Kim, A., Kim, C., Kim, Y., Korsch, W., Krintiras, G., Kuo, C.-M., Lajoie, J., Lee, S.W., Lee, Y.-J., Lim, S., Lin, C.-h., Llope, W.J., Lu, R.-S., Markowitz, P., Monaghan, P., Montgomery, R., Movsisyan, A., Nouicer, R., Nukazuka, G., Orešić, S., Paganis, S., Perepelitsa, D.V., Periera da Costa, H., Phelps, W., Piasetzky, E., Prochazka, I., Protzman, T., Read, K., Røed, K., Reed, R., Reinhold, J., Roche, J., Roland, G.M., Royon, C., Santos, R., Schmidt, N., Sickles, A., Sirca, S., Shibata, T.-A., Shih, C.-W., Shimizu, S., Shrestha, U., Strakovsky, I.I., Stevens, J., Sun, X., Tadevosyan, V., Tang, W.-C., Tarafdar, S., Tomasek, L., Trotta, R., Umaka, E., van Hecke, H.W., Van Hulse, C., Velkovska, J., Wang, P.K., Wang, Y., Wickramaarachchi, N., Williams, M., Wood, M.H., Xiao, Z., Zachariou, N.

“…The Electron Ion Collider (EIC) is the next generation of precision QCD facility to be built at Brookhaven National Laboratory in conjunction with Thomas…”
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Inhibitory effect of p38 mitogen‐activated protein kinase inhibitors on cytokine release from human macrophages by Smith, S J, Fenwick, P S, Nicholson, A G, Kirschenbaum, F, Finney‐Hayward, T K, Higgins, L S, Giembycz, M A, Barnes, P J, Donnelly, L E

“…Background and purpose: Macrophages release cytokines that may contribute to pulmonary inflammation in conditions such as chronic obstructive pulmonary…”
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Detector requirements and simulation results for the EIC exclusive, diffractive and tagging physics program using the ECCE detector concept by Bylinkin, A., Fegan, S., Gates, K., Korover, I., Li, W.B., Penman, G., Shimizu, S., Usman, A., Reed, R., Goto, Y., Zha, W., Arsene, I.C., Ayerbe Gayoso, C., Bai, X., Bashkanov, M., Benmokhtar, F., Bernauer, J.C., Bock, F., Borysova, M., Brindza, P., Briscoe, W.J., Chang, W.-C., Cheon, Y., Cheng, K.-Y., Chiu, M., Citron, Z., Corrales Morales, Y., Crafts, J., Cunningham, J., Demarteau, M., Doshita, N., El Fassi, L., Friedman, M., Friscic, I., Gardner, S., Glimos, E., Grau, N., Guo, A.Q., Haggerty, J., He, X., Hen, O., Hsu, P.-h.J., Hwang, K.Y., Iwata, T., Jo, H.S., Kalantarians, N., Kim, A., Kim, Y., Korsch, W., Lee, J.S.H., Lee, Y.-J., Lim, S., Liu, K., Liu, M.X., Livingston, K., Long, E., Lu, Z., Mantry, S., Mihovilovic, M., Milov, A., Mkrtchyan, H., Nagle, J., Orešić, S., Osborn, J.D., O’Shaughnessy, C., Paganis, S., Paus, C., Protzman, T., Rajput-Ghoshal, R., Reinhold, J., Roland, G.M., Rosati, M., Salur, S., Sarsour, M., Schambach, J., Schmidt, N., Sirca, S., Shibata, T.-A., Shih, C.-W., Slifer, K., Sokhan, D., Sondheim, W., Tang, W.-C., Tapia Araya, S., Trotta, N., Umaka, E., Velkovska, J., Voutier, E., Wang, P.K., Wang, Q., Wang, Y., Wang, Y., Weinstein, L., Wong, C.-P., Woody, C., Ye, Z., Yoo, H.D., Yurov, M., Zhao, Y.-X., Zheng, X.

“…This article presents a collection of simulation studies using the ECCE detector concept in the context of the EIC’s exclusive, diffractive, and tagging…”
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Ballistic rectification of vortex domain wall chirality at nanowire corners by Omari, K., Bradley, R. C., Broomhall, T. J., Hodges, M. P. P., Rosamond, M. C., Linfield, E. H., Im, M.-Y., Fischer, P., Hayward, T. J.

“…The interactions of vortex domain walls with corners in planar magnetic nanowires are probed using magnetic soft X-ray transmission microscopy. We show that…”
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Orb5: A global electromagnetic gyrokinetic code using the PIC approach in toroidal geometry by Lanti, E., Ohana, N., Tronko, N., Hayward-Schneider, T., Bottino, A., McMillan, B.F., Mishchenko, A., Scheinberg, A., Biancalani, A., Angelino, P., Brunner, S., Dominski, J., Donnel, P., Gheller, C., Hatzky, R., Jocksch, A., Jolliet, S., Lu, Z.X., Martin Collar, J.P., Novikau, I., Sonnendrücker, E., Vernay, T., Villard, L.

“…This paper presents the current state of the global gyrokinetic code Orb5 as an update of the previous reference (Jolliet et al., 2007). The Orb5 code solves…”
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Exploring physical and digital architectures in magnetic nanoring array reservoir computers by Venkat, G, Vidamour, I T, Swindells, C, Fry, P W, Rosamond, M C, Foerster, M, Niño, M A, Griffin, D, Stepney, S, Allwood, D A, Hayward, T J

“…Abstract Physical reservoir computing (RC) is a machine learning technique that is ideal for processing of time dependent data series. It is also uniquely…”
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Thermal structure and composition of Jupiter’s Great Red Spot from high-resolution thermal imaging by Fletcher, Leigh N., Orton, G.S., Mousis, O., Yanamandra-Fisher, P., Parrish, P.D., Irwin, P.G.J., Fisher, B.M., Vanzi, L., Fujiyoshi, T., Fuse, T., Simon-Miller, A.A., Edkins, E., Hayward, T.L., De Buizer, J.

“…Thermal-IR imaging from space-borne and ground-based observatories was used to investigate the temperature, composition and aerosol structure of Jupiter’s…”
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Observation of Beam Spin Asymmetries in the Process e p → e ′ π + π − X with CLAS12 by Hayward, T. B., Dilks, C., Vossen, A., Avakian, H., Adhikari, S., Angelini, G., Arratia, M., Atac, H., Ayerbe Gayoso, C., Baltzell, N. A., Barion, L., Battaglieri, M., Bedlinskiy, I., Benmokhtar, F., Bianconi, A., Biselli, A. S., Bondì, M., Bossù, F., Boiarinov, S., Briscoe, W. J., Brooks, W. K., Bulumulla, D., Burkert, V. D., Carman, D. S., Carvajal, J. C., Celentano, A., Chatagnon, P., Chetry, T., Ciullo, G., Clary, B. A., Cole, P. L., Contalbrigo, M., Costantini, G., Crede, V., D’Angelo, A., Dashyan, N., De Vita, R., Defurne, M., Deur, A., Diehl, S., Djalali, C., Dupre, R., Dugger, M., Egiyan, H., Ehrhart, M., El Alaoui, A., El Fassi, L., Elouadrhiri, L., Fegan, S., Filippi, A., Forest, T. A., Gavalian, G., Gilfoyle, G. P., Girod, F. X., Glazier, D. I., Golubenko, A. A., Gothe, R. W., Gotra, Y., Griffioen, K. A., Guidal, M., Hafidi, K., Hakobyan, H., Hattawy, M., Hauenstein, F., Hicks, K., Hobart, A., Holtrop, M., Ireland, D. G., Isupov, E. L., Jo, H. S., Joo, K., Joosten, S., Keller, D., Khachatryan, M., Khanal, A., Kim, A., Kim, W., Kripko, A., Kubarovsky, V., Kuhn, S. E., Lanza, L., Leali, M., Lee, S., Lenisa, P., Livingston, K., MacGregor, I. J. D., Marchand, D., Markov, N., Marsicano, L., Mascagna, V., McKinnon, B., Meziani, Z. E., Mirazita, M., Mokeev, V., Movsisyan, A., Munoz Camacho, C., Nadel-Turonski, P., Naidoo, P., Nanda, S., Neupane, K.

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ATEP: an advanced transport model for energetic particles by Lauber, Ph, Falessi, M., Meng, G., Hayward-Schneider, T., Popa, V.-A., Zonca, F., Schneider, M.

“…Abstract In this paper we report on the implementation and verification of a phase-space resolved energetic particle (EP) transport model. It is based on a…”
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PHARO: A Near‐Infrared Camera for the Palomar Adaptive Optics System by Hayward, T. L., Brandl, B., Pirger, B., Blacken, C., Gull, G. E., Schoenwald, J., Houck, J. R.

“…We describe Cornell’s near‐infrared camera system PHARO (Palomar High Angular Resolution Observer) built for use with the JPL Palomar Adaptive Optics System on…”
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