1561-5405

10.24151/1561-5405

Proceedings of Universities. Electronics

Scientifical and technical journal "Proceedings of Universities. Electronics"

Научно-технический журнал «Известия высших учебных заведений. Электроника»

1561-5405 2587-9960

National Research University of Electronic Technology

Национальный исследовательский университет "Московский институт электронной техники"

681.124.23; 621.377.623.22

Микроэлектронные приборы и системы

Spin Injector and Transistors for Silicon Spintronics. Review

Спиновые инжекторы и транзисторы для кремниевой спинтроники. Обзор

Плюснин Николай Иннокентьевич

Плюснин

Николай Иннокентьевич

Innokentevich

Plyusnin Nikolay

Plyusnin Nikolay Innokentevich

Институт автоматики и процессов управления Дальневосточного отделения Российской академии наук (г. Владивосток)

128138

http://ivuz-e.ru/issues/2-_2016/spinovye_inzhektory_i_tranzistory_dlya_kremnievoy_spintroniki/

http://ivuz-e.ru/download/2_2016_1794.pdf

A review of the literature data on electric injectors and spin transistors for silicon spintronics and the current state of researches has been presented. The basic stages of obtaining the corresponding magnetic tunnel contacts have been distinguished. Various structures for spin injection into silicon, the contact materials and the possible design of spin transistors for silicon spintronics have been described. The promising directions for further research have been outlined.

Приведен обзор литературных данных по электрическим спин-инжекторам и транзисторам для кремниевой спинтроники, рассмотрено современное состояние исследований в этой области. Выделены основные этапы получения соответствующих туннельных магнитных контактов. Описаны различные структуры для инжекции спина в кремний, контактные материалы, а также возможные конструкции транзисторов для применения в кремниевой спинтронике. Намечены перспективные направления дальнейших исследований.

Siферромагнитные металлыдиэлектрикисплавы Гейслераэлектрическая спин-инжекцияэпитаксиальные пленкитуннельный контактбарьер Шотткиспинтроникаспиновые транзисторыКМОП интегральные схемы

Schmidt G. Topical review: Concepts for spin injection into semiconductors: a review // J. of Physics D Appl. Phys.  2005.  Vol. 38.  Р. R107–R122.

Jansen R. Silicon spintronics // Nature Materials.  2012.  Vol. 11.  P. 400408.

Hirohata A., Takanashi K. Future perspectives for spintronic devices // J. of Physics D: Appl. Phys.  2014.  Vol. 47.  193001 (40 p.).

Fert A., Jaffres H. Conditions for efficient spin injection from a ferromagnetic metal into a semiconductor // Phys. Rev.B.  2001.  Vol. 64.  184420 (9 p.).

Ando K. Dynamical generation of spin currents // Semiconductor Science and Technology.  2014.  Vol. 29.  043002 (13 p.).

Jansen R., Deac A.M., Saito H., Yuasa S. Thermal spin current and magnetothermopower by Seebeck spin tunneling // Phys. Rev.B.  2012.  Vol. 85.  094401 (8 p.).

Fundamental obstacle for electrical spin injection from a ferromagnetic metal into a diffu-sive semiconductor / G. Schmidt, D. Ferrand, L. W. Molenkamp et al. // Phys. Rev.B. – 2000. – Vol. 62. – P. R4790–R4793.

Rashba E.I. Theory of electrical spin injection: Tunnel contacts as a solution of the con-ductivity mismatch problem // Phys. Rev.B.  2000.  Vol. 62.  P. R16267R16270.

Sarma S.D., Fabian J., Hu X., Žutić I. Theoretical perspectives on spintronics and spin-polarized transport // IEEE Transactions on Magnetics.  2000.  Vol. 36.  Р. 28212826.

10.

Miao G.X., Münzenberg M., Moodera J.S. Tunneling path toward spintronics. // Reports on Progress in Physics.  2011.  Vol. 74.  Р. 036501 (19 p.).

11.

Zhu J.G.J., Park C. Magnetic tunnel junctions // Materials Today.  2006.  Vol. 9.  Р. 3645.

12.

Highly efficient room temperature spin injection in a metal-insulator-semiconductor light-emitting diode / P. Van Dorpe, V. F. Motsnyi, M. Nijboer et al. // Japanese J. of Appl. Phys.  2003.  Vol. 42.  Р. L502L504.

13.

Miyazaki T., Yaoi T., Ishio S. Large magnetoresistance effect in 82Ni-Fe/Al-Al2O3/Co magnetic tunneling junction // J. of Magnetism and Magnetic Materials.  1991.  Vol. 98.  Р. L7L9.

14.

Room-temperature spin injection from Fe into GaAs / H.J. Zhu, M. Ramsteiner, H. Kostial et al. // Phys. Rev. Letters.  2001.  Vol. 87.  016601 (4 p.).

15.

Comparison of Fe/Schottky and Fe/Al2O3 tunnel barrier contacts for electrical spin injec-tion into GaAs / Van't Erve, O. M. J. Kioseoglou, G. Hanbicki et al. // Appl. Phys. Letters.  2004.  Vol. 84.  Р. 43344336.

16.

Yu Z.G., Flatté M.E. Spin diffusion and injection in semiconductor structures: Electric field effects // Phys. Rev.B.  2002.  Vol. 66.  235302 (14 p.).

17.

Albrecht J.D., Smith D.L. Spin-polarized electron transport at ferromagnet / semicon-ductor Schottky contacts. Phys. Rev.B.  2003.  Vol. 68.  035340 (14 p.).

18.

Osipov V.V., Bratkovsky A.M. Efficient nonlinear room-temperature spin injection from ferromagnets into semiconductors through a modified Schottky barrier // Phys. Rev.B.  2004.  Vol.70.  205312 (6 p.).

19.

Giant tunnelling magnetoresistance at room temperature with MgO(100) tunnel barriers / S.S. Parkin, C. Kaiser, A. Panchula et al. // Nature materials.  2004.  Vol. 3.  P. 862867.

20.

Highly spin-polarized room-temperature tunnel injector for semiconductor spintronics us-ing MgO (100) / X. Jiang, R. Wang, R.M. Shelby et al. // Phys. Rev.Letters.  2005.  Vol. 94.  056601 (4 p.).

21.

Electrical spin-injection into silicon from a ferromagnetic metal/tunnel barrier contact / B.T. Jonker, G. Kioseoglou, A.T. Hanbicki et al. // Nature Physics.  2007.  Vol. 3.  Р. 542546.

22.

Electrical creation of spin polarization in silicon at room temperature / S.P. Dash, S. Sharma, R.S. Patel et al. // Nature.  2009.  Vol. 462.  Р. 491494.

23.

Tsymbal E.Y., Pettifor D.G. Modelling of spin-polarized electron tunnelling from 3d fer-romagnets // J. of Physics: Condensed Matter.  1997.  Vol. 9.  Р. L411L417.

24.

Electronic structure of FM| semiconductor| FM spin tunneling structures. / W.H. Butler, X.G. Zhang, X. Wang et al. // J. of Appl. Phys.  1997.  Vol. 81.  Р. 55185520.

25.

Tsymbal E.Y., Sokolov A., Sabirianov I.F., Doudin B. Resonant inversion of tunneling magnetoresistance // Phys. Rev.Letters.  2003.  Vol.90.  186602 (4 p.).

26.

Zhang S., Levy P.M. Models for magnetoresistance in tunnel junctions // The European Physical Journal B-Condensed Matter and Complex Systems.  1999.  Vol. 10.  Р. 599606.

27.

Tsymbal E.Y., Pettifor D.G. Spin-polarized electron tunneling across a disordered insula-tor // Phys. Rev.B.  1998.  Vol. 58.  Р. 432437.

28.

Interface effects in spin-dependent tunneling / E.Y. Tsymbal, K.D. Belashchenko, J.P. Velev et al. // Progress in Materials Science.  2007.  Vol. 52.  Р. 401420.

29.

Oleinik I.I., Tsymbal E.Y., Pettifor D.G. Structural and electronic properties of Co/Al2O3/Co magnetic tunnel junction from first principles // Phys. Rev.B.  2000.  Vol. 62.  Р. 39523959.

30.

Tsymbal E.Y., Mryasov O.N., LeClair P.R. Spin-dependent tunnelling in magnetic tun-nel junctions // J. of Physics: Condensed Matter.  2003.  Vol. 15.  Р. R109R142.

31.

Negative spin polarization and large tunneling magnetoresistance in epitaxial Co| SrTiO 3| Co magnetic tunnel junctions / J.P. Velev, K.D. Belashchenko, D.A. Stewart et al. // Phys. Rev.letters.  2005.  Vol. 95.  216601 (4 p.).

32.

Bibes M., Villegas J.E., Barthelemy A. Ultrathin oxide films and interfaces for electron-ics and spintronics // Advances in Physics.  2011.  Vol. 60.  Р. 584.

33.

Farshchi R., Ramsteiner M. Spin injection from Heusler alloys into semiconductors: A materials perspective // J. of Appl. Phys.  2013.  Vol. 113.  191101 (15 p.).

34.

Electrical spin injection into Si(001) through a SiO2 tunnel barrier / C. H. Li, G. Kioseo-glou, O. M. J. van ‘t Erve et al. // Appl. Phys. Lett.  2009.  Vol. 95.  172102 (3 p.).

35.

Hayashi K., Takamura Y., Nakane R., Sugahara S. Formation of Co2FeSi/SiOxNy/Si tunnel junctions for Si-based spin transistors // J. Appl. Phys.  2010.  Vol. 107.  09B104 (3 p.).

36.

Li C.H., Van't Erve O. M. J., Jonker B. T. Electrical injection and detection of spin ac-cumulation in silicon at 500 K with magnetic metal/silicon dioxide contacts // Nature Communi-cations.  2011.  Vol. 2.  245 (7 p.).

37.

Efficient electrical spin injection from a magnetic metal/tunnel barrier contact into a sem-iconductor / A. T. Hanbicki, B. T. Jonker, G. Itskos et al. // Appl. Phys. Letters.  2002.  Vol. 80.  Р. 12401242.

38.

Min B. C., Motohashi K., Lodder C., Jansen R. Tunable spin-tunnel contacts to silicon using

40.

low-work-function ferromagnets // Nature Materials.  2006. – Vol. 5.  Р. 817822.

39.

Jansen R., Min B. C. Detection of a spin accumulation in nondegenerate semiconductors // Phys. Rev. Letters.  2007.  Vol. 99.  246604 (4 p.).

40.

Enhancement of the spin accumulation at the interface between a spin-polarized tunnel junction and a semiconductor / M. Tran, H. Jaffrès, C. Deranlot et al. // Phys. Rev.letters.  2009.  Vol. 102.  036601 (4 p.).

41.

Albrecht J. D., Smith D. L. Spin-polarized electron transport at ferromag-net/semiconductor Schottky contacts // Phys. Rev. B.  2003.  Vol. 68.  035340 (14 p.).

42.

Electrical spin injection into moderately doped silicon enabled by tailored interfaces / R. Jansen, B. C. Min, S. P. Dash et al. // Phys. Rev.B.  2010.  Vol. 82.  241305 (4 p.).

43.

Low-resistance spin injection into silicon using graphene tunnel barriers / O. M. J. van ’t Erve, A. L. Friedman, E. Cobas et al. // Nature nanotechnology.  2012.  Vol. 7.  Р. 737742.

44.

Spin-based MOSFET and its applications / Y. Saito, T. Inokuchi, M. Ishikawa et al. // J. of the Electrochemical Society.  2011.  Vol. 158.  Р. H1068–H1076.

45.

Sugahara S., Tanaka M. A spin metal–oxide–semiconductor field-effect transistor using half-metallic-ferromagnet contacts for the source and drain // Appl. Phys. Letters.  2004. Vol. 84.  Р. 23072309.

46.

Ploog K. H. Spin injection in ferromagnet-semiconductor heterostructures at room tem-perature // J. of Appl. Phys.  2002.  Vol. 91.  Р. 72567260.

47.

Evolution of the ferromagnetic phase of ultrathin Fe films grown on GaAs(100)-4×6 / Y. B. Xu, E. T. M. Kernohan, D. J. Freeland et al. // Phys. Rev.B.  1998.  Vol. 58.  Р. 890896.

48.

Datta S., Das B. Electronic analog of the electrooptic modulator // Appl. Phys. Lett.  1990.  Vol. 56.  Р. 665–667.

49.

Spin transport in nondegenerate Si with a spin MOSFET structure at room temperature / T. Sasaki, Y. Ando, M. Kameno et al. // Phys. Rev.Applied.  2014.  Vol. 2.  034005 (6 p.).

50.

Spin injection, transport, and read/write operation in spin-based MOSFET / Y. Saito, T. Marukame, T. Inokuchi et al. // Thin Solid Films.  2011.  Vol. 519.  Р. 82668273.

51.

Tang J., Wang K. L. Electrical spin injection and transport in semiconductor nanowires: challenges, progress and perspectives // Nanoscale.  2015.  Vol. 7(10). Р. 43254337.

52.

Camsari K. Y., Ganguly S., Datta S. Modular approach to spintronics. Scientific Reports.  2015.  Vol. 5.  Р. 113.