Hybrid superconducting-magnetic memory device using competing order parameters.

[1]  M. Weides,et al.  Memory cell based on a $\varphi$ Josephson junction , 2013, 1306.1683.

[2]  Xiaofan Meng,et al.  64-kb Hybrid Josephson-CMOS 4 Kelvin RAM With 400 ps Access Time and 12 mW Read Power , 2013, IEEE Transactions on Applied Superconductivity.

[3]  D. S. Holmes,et al.  Energy-Efficient Superconducting Computing—Power Budgets and Requirements , 2013, IEEE Transactions on Applied Superconductivity.

[4]  V. V. Ryazanov,et al.  Magnetic switches based on Nb-PdFe-Nb Josephson junctions with a magnetically soft ferromagnetic interlayer , 2012 .

[5]  Igor V. Vernik,et al.  Ferromagnetic Josephson switching device with high characteristic voltage , 2012, 1205.3372.

[6]  H. Alloul Introduction to Superconductivity , 2011 .

[7]  M. Eschrig Spin-polarized supercurrents for spintronics , 2011 .

[8]  M. Blamire,et al.  Enhanced supercurrents in Josephson junctions containing nonparallel ferromagnetic domains. , 2010, Physical review letters.

[9]  V. V. Ryazanov,et al.  Implementation of superconductor/ferromagnet/ superconductor [pi]-shifters in superconducting digital and quantum circuits , 2010, 1005.1581.

[10]  M. Weides,et al.  Josephson tunnel junctions with a strong ferromagnetic interlayer , 2008, 0808.3332.

[11]  A. Fert The origin, development and future of spintronics , 2008 .

[12]  H. Ohno,et al.  Tunnel magnetoresistance of 604% at 300K by suppression of Ta diffusion in CoFeB∕MgO∕CoFeB pseudo-spin-valves annealed at high temperature , 2008 .

[13]  J. Cayssol,et al.  Nonsinusoidal current-phase relation in strongly ferromagnetic and moderately disordered SFS junctions , 2008, 0807.2560.

[14]  W. Rippard,et al.  Developments in nano-oscillators based upon spin-transfer point-contact devices , 2008 .

[15]  B. Dimov,et al.  Phase engineering techniques in superconducting quantum electronics , 2008 .

[16]  M. Blamire,et al.  Zero to π transition in superconductor-ferromagnet-superconductor junctions , 2007 .

[17]  J. Linder,et al.  Josephson effect in thin-film superconductor/insulator/superconductor junctions with misaligned in-plane magnetic fields , 2007, 0707.4413.

[18]  J. E. Mooij,et al.  Demonstration of controlled-NOT quantum gates on a pair of superconducting quantum bits , 2007, Nature.

[19]  V. Oboznov,et al.  Thickness dependence of the Josephson ground States of superconductor-ferromagnet-superconductor junctions. , 2006, Physical review letters.

[20]  H. Yamamori,et al.  Practical high-resolution programmable Josephson Voltage standards using double- and triple-stacked MoSi/sub 2/-barrier junctions , 2005, IEEE Transactions on Applied Superconductivity.

[21]  K. Efetov,et al.  Odd triplet superconductivity and related phenomena in superconductor-ferromagnet structures , 2005, cond-mat/0506047.

[22]  A. Buzdin,et al.  Proximity effect in superconductor-ferromagnet heterostructures , 2005, cond-mat/0505583.

[23]  A. Buzdin M ay 2 00 5 Proximity effects in superconductor-ferromagnet heterostructures , 2005 .

[24]  M. Blamire,et al.  Controllable Josephson current through a pseudospin-valve structure , 2003, cond-mat/0309430.

[25]  Y. Blanter,et al.  Supercurrent in long SFFS junctions with antiparallel domain configuration , 2003, cond-mat/0306706.

[26]  V. K. Kaplunenko,et al.  Rapid single-flux quantum logic using π-shifters , 2003 .

[27]  J. C. Sloncxewski,et al.  Current-driven excitation of magnetic multilayers , 2003 .

[28]  T. Kontos,et al.  Josephson junction through a thin ferromagnetic layer: negative coupling. , 2002, Physical review letters.

[29]  A. Palevski,et al.  Oscillations of the superconducting critical current in Nb-Cu-Ni-Cu-Nb junctions. , 2002, Physical review letters.

[30]  J. E. Mooij,et al.  Simple phase bias for superconducting circuits , 2001, cond-mat/0112433.

[31]  K. Efetov,et al.  Josephson current in superconductor-ferromagnet structures with a nonhomogeneous magnetization , 2001, cond-mat/0106510.

[32]  K. Efetov,et al.  Enhancement of the Josephson current by an exchange field in superconductor-ferromagnet structures. , 2001, Physical review letters.

[33]  Mark Johnson,et al.  NONVOLATILE SWITCHABLE JOSEPHSON JUNCTIONS , 1999 .

[34]  Alexander V. Rylyakov,et al.  Superconductor digital frequency divider operating up to 750 GHz , 1998 .

[35]  S. Tahara,et al.  A 380 ps, 9.5 mW Josephson 4-Kbit RAM operated at a high bit yield , 1995, IEEE Transactions on Applied Superconductivity.

[36]  Huang,et al.  Role of interfacial mixing in giant magnetoresistance. , 1993, Physical review. B, Condensed matter.

[37]  G. Gorman,et al.  Ternary NiFeX as soft biasing film in a magnetoresistive sensor , 1991 .

[38]  V. Semenov,et al.  RSFQ logic/memory family: a new Josephson-junction technology for sub-terahertz-clock-frequency digital systems , 1991, IEEE Transactions on Applied Superconductivity.

[39]  K. Likharev,et al.  Dynamics of Josephson Junctions and Circuits , 1986 .

[40]  L. Bulaevskii,et al.  Critical-current oscillations as a function of the exchange field and thickness of the ferromagnetic metal (F) in an S-F-S Josephson junction , 1982 .

[41]  A. Campbell Principles of Superconductive Devices and Circuits , 1982 .