30. Mutuallysynchronized bottom-up multi-nanocontact spin–torque oscillators
S. Sani, J. Persson, S.M. Mohseni, Ye Pogoryelov, P.K. Muduli, A. Eklund, G. Malm, M. Käll, A. Dmitriev and J. Åkerman,
Nature Comm., 4, 2731 (2013).
29. Spin Torque Generated Magnetic Droplet Solitons
S. M. Mohseni, S. R. Sani, J. Persson, T. N. Anh Nguyen, S. Chung, Ye. Pogoryelov, P. K. Muduli, E. Iacocca, A. Eklund, R. K. Dumas, S. Bonetti, A. Deac, M. Hoefer, and J. Åkerman,
Science, 339, 6125 (2013).
28. Decoherence,mode-hopping, and mode coupling in spin-torque oscillators
O. G. Heinonen, P. K. Muduli, E. Iacocca, and Johan Åkerman,
IEEE Trans. Magn. 49, 4398 (2013).
P. K. Muduli, O. G. Heinonen, and Johan Åkerman,
Phys. Rev. B 86, 174408 (2012).
26. Decohorence and mode-hooping in MgO basedspin torque oscillators
P. K. Muduli, O. G. Heinonen, and Johan Åkerman,
Phys. Rev. Lett. 108, 207203 (2012). Also see arXiv:1203.6300
Ye. Pogoryelov, P. K. Muduli, and Johan Åkerman,
IEEE Trans. Magn., 48, 4077 (2012).
24. Intrinsic frequency doubling in a magnetic tunnel junction−based spin torque oscillator
P. K. Muduli, O. G. Heinonen, and Johan Åkerman,
J. Appl. Phys. 110, 076102 (2011) (Communications).
P. K. Muduli, O. G. Heinonen, and Johan Åkerman,
Phys. Rev. B 83, 184410 (2011).
22. “Frequency Modulation of spin torque oscillator pairs”
Ye. Pogoryelov, P. K. Muduli, S. Bonetti, E. Iacocca, F. Mancoff, and Johan Åkerman,
Appl. Phys. Lett, 98, 192501 (2011).
21. "Spin torque oscillator linewidth narrowing through current modulation"
Ye. Pogoryelov, P. K. Muduli, F. Mancoff, and Johan Åkerman,
Appl. Phys. Lett, 98, 192506 (2011).
Selected for APL Research Highlights.
20. Modulation of Individual and Mutually Synchronized Nanocontact-based Spin Torque Oscillators,
P. K. Muduli, Ye. Pogoryelov, F. Mancoff, and Johan Åkerman
IEEE Trans. Magn. 47, 1575 (2011).
19. Spin Torque Oscillators and RF currents – Modulation, Locking, and Ringing
P. K. Muduli, Ye. Pogoryelov, Y. Zhou, F. Mancoff, and Johan Åkerman,
Integrated Ferroelectrics, 125, 147, (2011).
18. Modulation of single and double nano-contact spin-torque oscillators
P. K. Muduli, Ye. Pogoryelov, G. Consolo, F. Mancoff, and Johan Åkerman,
AIP Conf. Proc., 1347, 318 (2011).
17. “Non-linear frequency and amplitude modulation of a nano-contact based spin torque oscillator”
P. K. Muduli, Ye. Pogoryelov, S. Bonetti, G. Consolo, Fred Mancoff, Johan Åkerman,
Phys. Rev. B. 81, 140408(R) (2010) (Rapid Communications) Selected for Virtual Journal of Nanoscale Science & Technology, May 10, 2010.
S. Bonetti, Vasil S. Tiberkevich, G. Consolo, G. Finocchio, P. K. Muduli, A. N. Slavin, F. Mancoff and J. Åkerman
Phys. Rev. Lett, 105, 217204 (2010).
15. “Exchange-bias-like effects in L10 (111)-oriented FePt based pseudo spin valves ”
C. L. Zha, P. K. Muduli, Josep Noguès, and Johan Åkerman
J. Phys.: Conf. Ser. 200 072110 (2010).
P. K. Muduli, W. Rice, L. He, B. A. Collins, Y. S. Chu and F. Tsui
J. Phys.: Condens. Matter 21 296005 (2009).
P. K. Muduli, J. Herfort, H.-P. Schönherr, and K. H. Ploog
J. Magn. Magn. Mater.321 3488 (2009).
12. “Spin Torque Oscillator Frequency vs. Magnetic Field Angle: The Prospect of Operation beyond 65 GHz”
S. Bonetti, P. K. Muduli, F. Mancoff and J. Åkerman
Appl. Phys. Lett. 94 102507 (2009)
11. “Composition dependent properties of Fe3Si films grown on GaAs(113)A substrates”
P. K. Muduli, K.-J. Friedland J. Herfort, H.-P. Schönherr, and K. H. Ploog
J. Appl. Phys. 105, 07B104 (2009).
P. K. Muduli, W. Rice, L. He, and F. Tsui
J. Magn. Magn. Mater. 320, L141 (2008) (Letter to the editor).
9. “Spin wave excitations in Fe films grown on GaAs(113)A substrates”
P. K. Muduli, J. Herfort, H.-P. Schönherr, and K. H. Ploog
J. Magn. Magn. Mater. 320, 2835, (2008).
8. “Magnetic anisotropy in Heusler alloy Fe3Si films on GaAs(113)A”
J. Herfort, P. K. Muduli, K.-J. Friedland, H.-P. Schönherr, and K. H. Ploog
J. Magn. Magn. Mater. 310, 2228, (2007).
P. K. Muduli, K.-J. Friedland, J. Herfort, H.-P. Schönherr, and K. H. Ploog
J. Phys. Condens. Matter 18, 9453-9462 (2006).
6. “Epitaxial Fe3Si films stabilized on GaAs(113)A substrates”
P. K. Muduli, J. Herfort, H.-P. Schönherr, and K. H. Ploog
J. Cryst. Growth, 285, 514 (2005).
5. “Anti-symmetric contribution to the planar Hall effect of Fe3Si films grown on GaAs(113)A substrates”
P. K. Muduli, K.-J. Friedland, J. Herfort, H.-P. Schönherr, and K. H. Ploog
Phys. Rev. B 72, 104430 (2005).
4. “Planar Hall effect in epitaxial Fe layers on GaAs(001) and GaAs(113)A substrates”
K.-J. Friedland, J. Herfort, P. K. Muduli, H.-P. Schönherr, and K. H. Ploog
J. Supercond., 18, 309, (2005).
3. “Magnetic anisotropy of Fe films on GaAs(113)A substrates”
P. K. Muduli, J. Herfort, H.-P. Schönherr, L. Däweritz, and K. H. Ploog
Appl. Phys. A, 81 901 (2005) (Rapid Communications).
P. K. Muduli, J. Herfort, H.-P. Schönherr, and K. H. Ploog
J. Appl. Phys. 97 123904 (2005).
1. “Magnetic anisotropy of ultrathin epitaxial Fe films grown on As terminated GaAs(001)-2×1 substrates”
J. Herfort, H.-P. Schönherr, P. K. Muduli, and K. H. Ploog
International Symposium on Compound Semiconductors: Post-Conference Proceedings, edited by M. R. Melloch and C. Tu,, pages 96, 101, IEEE, Piscataway, 2004.