Philip E. Heil
Intel
8 Papers
3 Citations
Philip E. Heil is an academic researcher from Intel. The author has contributed to research in topics: Magnetic field & Polarizer. The author has an hindex of 3, co-authored 4 publications.
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Papers
CMOS Compatible Process Integration of SOT-MRAM with Heavy-Metal Bi-Layer Bottom Electrode and 10ns Field-Free SOT Switching with STT Assist
Noriyuki Sato,Gary Allen,William P. Benson,Buford Benjamin,Atreyee Chakraborty,Michael Christenson,Gosavi Tanay,Philip E. Heil,Kabir Nafees,B. Krist,O'brien Kevin P,Kaan Oguz,Rohan R. Patil,Pellegren James,Smith Angeline K,Emily S. Walker,P. Hentges,Matthew V. Metz,Mansi Seth,Bob Turkot,Christopher J. Wiegand,Hui Jae Yoo,Ian A. Young +22 more
- 16 Jun 2020
TL;DR: In this article, a CMOS compatible process integration of spin-orbit torque (SOT) device with a unique bilayer SOT bottom electrode was demonstrated, achieving an effective spin-Hall angle of 0.27, a median tunneling magneto-resistance ratio of 127% at electrical CD of 57 nm, and a 96% resistance based MTJ yield on 300 mm scale.
31
Design study for a 500 MeV positron beam at the Mainz Microtron MAMI
TL;DR: In this paper , a design study has been performed for a positron beam with an energy of 500 MeV to be realized at the applied physics area of the Mainz Microtron MAMI.
Patent
Capped magnetic memory
Daniel R. Lamborn,Oleg Golonzka,Christopher J. Wiegand,Philip E. Heil,Rahman Md Tofizur,Rebecca J. Castellano,Bansal Tarun +6 more
- 19 Jun 2015
TL;DR: In this paper, the authors describe an apparatus comprising of a magnetic tunnel junction (MTJ) between first and second electrodes, comprising a dielectric layer between fixed and free layers, a metal-glass-like film directly contacting sidewalls of the first electrode, and a metallic layer coupled to the sidewalls via the dielectrical film.
3
Resonant Cancellation Effect in Ramsey Experiments
Ivo Schulthess,Estelle Chanel,A. Fratangelo,Philip E. Heil,Ch. Klauser,G. Markaj,Marc Persoz,C. Pistillo,J. A. Thorne,Florian M. Piegsa +9 more
- 16 Jun 2023
TL;DR: In this article , the response of a Ramsey-type experiment on an additional oscillating magnetic field was investigated and compared to a measurement using a monochromatic cold neutron beam.
Particle Physics at the European Spallation Source
Hartmut Abele,A. Alekou,Alejandro Algora,K. Andersen,S. Baeßler,L. Barrón-Palos,Joshua Barrow,Eric Baussan,Phillip M. Bentley,Zurab Berezhiani,Y. Bessler,Anuradha Bhattacharyya,A. Bianchi,Johan Bijnens,Carlos Blanco,N. Blaskovic Kraljevic,Mattias Blennow,Kazimierz Bodek,M. Bogomilov,C. Bohm,B.E. Bolling,Elian Bouquerel,Gustaaf Brooijmans,Leah Broussard,O. Buchan,Alexander Burgman,H. Calén,C.J. Carlile,J Cederkall,E. Chanel,Peter Christiansen,Vincenzo Cirigliano,J. I. Collar,Matthew Collins,Christopher Crawford,E. C. Morales,Piotr Cupiał,Loris D’Alessi,J.I. Márquez Damián,HÃ¥kan Danared,D. Stefan Dancila,J. P. A. M. de André,Jean-Pierre Delahaye,S. Degenkolb,D. Di Julio,Marcos Dracos,Katherine Dunne,Ilias Efthymiopoulos,Tord Ekelof,L. Eklund,M. Eshraqi,Ivan Esteban,G. Fanourakis,A. Farricker,Enrique Fernandez-Martinez,M.J. Ferreira,Martin Fertl,Peter Fierlinger,Benjamin Folsom,Alejandro Frank,A. Fratangelo,U. Friman-Gayer,T. Fukuda,H. O. U. Fynbo,A. Sosa,N. Gazis,B. Galnander,T. Geralis,Meenakshi Ghosh,Gul Gokbulut,J.J. Gómez-Cadenas,Martín González-Alonso,F. Gonzalez,L. Halić,C. Happe,Philip E. Heil,A. Heinz,Hannah Herde,Matthias Moll,Tobias Jenke,M. Jenssen,E. Jericha,Håkan T Johansson,R. Johansson,T. Johansson,Yuri Kamyshkov,A. Kayis Topaksu,B. Kildetoft,Klaus Kirch,B. Klicek,E. B. Klinkby,R. S. Kolevatov,Gertrud Konrad,Martin Koziol,K. Krhač,A. Kupsc,L. Lacny,L. Larizgoitia,C. M. Lewis,Mats Lindroos,E. V. Lychagin,Else Lytken,C. Maiano,Pawel Marciniewski,G. Markaj,B. Markisch,C. Marrelli,Carlos A. Martins,Bernhard Meirose,M. Mezzetto,Nikos Milas,David Milstead,F. Monrabal,G. Muhrer,A. Nepomuceno,Valery Nesvizhevsky,Thomas Nilsson,P. Novella,Mehmet Oglakci,Tommy Ohlsson,Maja Olvegård,A. Oskarsson,Tomoro Ota,J. Park,Dariusz Patrzałek,Hanno Perrey,M. Persoz,G. L. Petkov,Florian M. Piegsa,C. Pistillo,Pascal Poussot,Paolo Privitera,B. Rataj,D. Ries,N. Rizzi,S. Rosauro-Alcaraz,D. Rozpedzik,David Saiang,Valentina Santoro,Ulrich Schmidt,Helmut Schober,Ivo Schulthess,S. Silverstein,A. Simón,H. Sina,Jacek Snamina,W. M. Snow,T. Soldner,Georgios Stavropoulos,Mario Stipčević,B. Szybinski,A. Takibayev,Z.Q. Tang,R. Tarkeshian,C. Theroine,J. A. Thorne,F. Terranova,J. Thomas,T. Tolba,P. Torres-Sánchez,Emmanuil Trachanas,R. Tsenov,Ulrik I. Uggerhøj,G. Vankova-Kirilova,N. Vassilopoulos,Roland Wagner,Xu Wang,Elena Wildner,Magnus Wolke,J. Wurtz,Shih-Chen Yiu,Suk Goo Yoon,A. R. Young,L. Zanini,Jacek Zejma,Daniel Zerzion,O. Zimmer,Olga Zormpa,Yongtao Zou +178 more
- 18 Nov 2022
TL;DR: The European Spallation Source (ESS) is the world's brightest neutron source and has the potential for a particle physics program with a unique reach and which is complementary to that available at other facilities as discussed by the authors .