- 著者
- Sawada A. Koga T.
- 出版者
- American Physical Society (APS)
- 雑誌
- Physical review e (ISSN:24700045)
- 巻号頁・発行日
- vol.95, no.2, pp.23309, 2017-02-21
- 被引用文献数
- 10
We have developed a method to calculate the weak localization and antilocalization corrections based on the real-space simulation, where we provide 147 885 predetermined return orbitals of quasi-two-dimensional electrons with up to 5000 scattering events that are repeatedly used. Our model subsumes that of Golub [L. E. Golub, Phys. Rev. B 71, 235310 (2005)] when the Rashba spin-orbit interaction (SOI) is assumed. Our computation is very simple, fast, and versatile, where the numerical results, obtained all at once, cover wide ranges of the magnetic field under various one-electron interactions H' exactly. Thus, it has straightforward extensibility to incorporate interactions other than the Rashba SOI, such as the linear and cubic Dresselhaus SOIs, Zeeman effect, and even interactions relevant to the valley and pseudo spin degrees of freedom, which should provide a unique tool to study new classes of materials like emerging 2D materials. Using our computation, we also demonstrate the robustness of a persistent spin helix state against the cubic Dresselhaus SOI.
- 著者
- Suda Yusuke Okuda Koji
- 出版者
- American Physical Society (APS)
- 雑誌
- Physical review E (ISSN:15393755)
- 巻号頁・発行日
- vol.92, no.6, 2015-12-14
- 被引用文献数
- 35
Chimera states in the systems of nonlocally coupled phase oscillators are considered stable in the continuous limit of spatially distributed oscillators. However, it is reported that in the numerical simulations without taking such limit, chimera states are chaotic transient and finally collapse into the completely synchronous solution. In this Rapid Communication, we numerically study chimera states by using the coupling function different from the previous studies and obtain the result that chimera states can be stable even without taking the continuous limit, which we call the persistent chimera state.
- 著者
- Aidala C. Akiba Y. Alfred M. Andrieux V. Apadula N. Asano H. Azmoun B. Babintsev V. Bandara N. S. Barish K. N. Bathe S. Bazilevsky A. Beaumier M. Belmont R. Berdnikov A. Berdnikov Y. Blau D. S. Bok J. S. Brooks M. L. Bryslawskyj J. Bumazhnov V. Campbell S. Canoa Roman V. Cervantes R. Chi C. Y. Chiu M. Choi I. J. Choi J. B. Citron Z. Connors M. Cronin N. Csanád M. Csörgő T. Danley T. W. Daugherity M. S. David G. DeBlasio K. Dehmelt K. Denisov A. Deshpande A. Desmond E. J. Dion A. Dixit D. Do J. H. Drees A. Drees K. A. Durham J. M. Durum A. Enokizono A. En'yo H. Esumi S. Fadem B. Fan W. Feege N. Fields D. E. Finger M. Finger M. Fokin S. L. Frantz J. E. Franz A. Frawley A. D. Fukuda Y. Gal C. Gallus P. Gamez E. A. Garg P. Ge H. Giordano F. Goto Y. Grau N. Greene S. V. Grosse Perdekamp M. Gunji T. Guragain H. Hachiya T. Haggerty J. S. Hahn K. I. Hamagaki H. Hamilton H. F. Han S. Y. Hanks J. Hasegawa S. Haseler T. O. S. He X. Hemmick T. K. Hill J. C. Hill K. Hodges A. Hollis R. S. Homma K. Hong B. Hoshino T. Hotvedt N. Huang J. Huang S. Imai K. Inaba M. Iordanova A. Isenhower D. Ishimaru S. Ivanishchev D. Jacak B. V. Jezghani M. Ji Z. Jiang X. Johnson B. M. Jouan D. Jumper D. S. Kang J. H. Kapukchyan D. Karthas S. Kawall D. Kazantsev A. V. Khachatryan V. Khanzadeev A. Kim C. Kim E.-J. Kim M. Kincses D. Kistenev E. Klatsky J. Kline P. Koblesky T. Kotov D. Kudo S. Kurgyis B. Kurita K. Kwon Y. Lajoie J. G. Lebedev A. Lee S. Lee S. H. Leitch M. J. Leung Y. H. Lewis N. A. Li X. Lim S. H. Liu M. X. Loggins V.-R. Lökös S. Lovasz K. Lynch D. Majoros T. Makdisi Y. I. Makek M. Manko V. I. Mannel E. McCumber M. McGaughey P. L. McGlinchey D. McKinney C. Mendoza M. Metzger W. J. Mignerey A. C. Milov A. Mishra D. K. Mitchell J. T. Mitrankov Iu. Mitsuka G. Miyasaka S. Mizuno S. Montuenga P. Moon T. Morrison D. P. Morrow S. I. Murakami T. Murata J. Nagai K. Nagashima K. Nagashima T. Nagle J. L. Nagy M. I. Nakagawa I. Nakano K. Nattrass C. Nelson S. Niida T. Nishitani R. Nouicer R. Novák T. Novitzky N. Nyanin A. S. O'Brien E. Ogilvie C. A. Orjuela Koop J. D. Osborn J. D. Oskarsson A. Ottino G. J. Ozawa K. Pantuev V. Papavassiliou V. Park J. S. Park S. Pate S. F. Patel M. Peng W. Perepelitsa D. V. Perera G. D. N. Peressounko D. Yu. PerezLara C. E. Perry J. Petti R. Phipps M. Pinkenburg C. Pisani R. P. Pun A. Purschke M. L. Radzevich P. V. Read K. F. Reynolds D. Riabov V. Riabov Y. Richford D. Rinn T. Rolnick S. D. Rosati M. Rowan Z. Runchey J. Safonov A. S. Sakaguchi T. Sako H. Samsonov V. Sarsour M. Sato S. Scarlett C. Y. Schaefer B. Schmoll B. K. Sedgwick K. Seidl R. Sen A. Seto R. Sexton A. Sharma D. Shein I. Shibata T.-A. Shigaki K. Shimomura M. Shioya T. Shukla P. Sickles A. Silva C. L. Silvermyr D. Singh B. K. Singh C. P. Singh V. Skoby M. J. Slunečka M. Smith K. L. Snowball M. Soltz R. A. Sondheim W. E. Sorensen S. P. Sourikova I. V. Stankus P. W. Stoll S. P. Sugitate T. Sukhanov A. Sumita T. Sun J. Sun Z. Suzuki S. Sziklai J. Tanida K. Tannenbaum M. J. Tarafdar S. Taranenko A. Tarnai G. Tieulent R. Timilsina A. Todoroki T. Tomášek M. Towell C. L. Towell R. S. Tserruya I. Ueda Y. Ujvari B. van Hecke H. W. Velkovska J. Virius M. Vrba V. Vukman N. Wang X. R. Wang Z. Watanabe Y. S. Wong C. P. Woody C. L. Xu C. Xu Q. Xue L. Yalcin S. Yamaguchi Y. L. Yamamoto H. Yanovich A. Yoo J. H. Yoon I. Yu H. Yushmanov I. E. Zajc W. A. Zelenski A. Zhai Y. Zharko S. Zou L.
- 出版者
- American Physical Society (APS)
- 雑誌
- Physical Review D (ISSN:24700010)
- 巻号頁・発行日
- no.99, 2019-05-13
Measurements of the differential production of electrons from open-heavy-flavor hadrons with charm- and bottom-quark content in p+p collisions at √s=200 GeV are presented. The measurements proceed through displaced-vertex analyses of electron tracks from the semileptonic decay of charm and bottom hadrons using the PHENIX silicon-vertex detector. The relative contribution of electrons from bottom decays to inclusive heavy-flavor-electron production is found to be consistent with fixed-order-plus-next-to-leading-log perturbative-QCD calculations within experimental and theoretical uncertainties. These new measurements in p+p collisions provide a precision baseline for comparable forthcoming measurements in A+A collisions.