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Personal profile

Research Interests

Pedram Khalili-Amiri works on developing the computing systems of the future, starting from novel nano-scale devices/materials that enable systems with unprecedented performance and energy efficiency. Much of his work involves devices that use both the spin and charge of electrons, also referred to as spintronics.

Education/Academic qualification

Electrical Engineering, PhD, Delft University of Technology

20042008

Electrical Engineering, BSc, Sharif University of Technology

19992004

Fingerprint Dive into the research topics where Pedram Khalili is active. These topic labels come from the works of this person. Together they form a unique fingerprint.

Tunnel junctions Engineering & Materials Science
torque Physics & Astronomy
tunnel junctions Physics & Astronomy
anisotropy Physics & Astronomy
Magnetic anisotropy Engineering & Materials Science
Data storage equipment Engineering & Materials Science
Torque Engineering & Materials Science
Magnetoelectronics Engineering & Materials Science

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Grants 2019 2022

metalorganic chemical vapor deposition
tunnel junctions
transistors
proposals
architecture (computers)
education
industries
artificial intelligence
fabrication
Jordan
magnetic storage
industries
artificial intelligence
fabrication
Jordan
Electric fields
Data storage equipment
Induced currents
Electric potential
Magnetization

Research Output 2002 2020

Voltage-controlled magnetic tunnel junctions with synthetic ferromagnet free layer sandwiched by asymmetric double MgO barriers

Grezes, C., Li, X., Wong, K. L., Ebrahimi, F., Amiri, P. K. & Wang, K. L., Jan 1 2020, In : Journal of Physics D: Applied Physics. 53, 1, 014006.

Research output: Contribution to journalArticle

Tunnel junctions
Magnetic anisotropy
tunnel junctions
anisotropy
Electric potential
1 Citation (Scopus)

Colossal electric field control of magnetic anisotropy at ferromagnetic interfaces induced by iridium overlayer

Kwon, S., Ong, P. V., Sun, Q., Mahfouzi, F., Li, X., Wang, K. L., Kato, Y., Yoda, H., Amiri, P. K. & Kioussis, N., Feb 25 2019, In : Physical Review B. 99, 6, 064434.

Research output: Contribution to journalArticle

Iridium
Magnetic anisotropy
iridium
Electric fields
anisotropy
1 Citation (Scopus)

Control of Spin-Wave Damping in YIG Using Spin Currents from Topological Insulators

Navabi, A., Liu, Y., Upadhyaya, P., Murata, K., Ebrahimi, F., Yu, G., Ma, B., Rao, Y., Yazdani, M., Montazeri, M., Pan, L., Krivorotov, I. N., Barsukov, I., Yang, Q., Khalili, P., Tserkovnyak, Y. & Wang, K. L., Mar 19 2019, In : Physical Review Applied. 11, 3, 034046.

Research output: Contribution to journalArticle

yttrium-iron garnet
magnons
damping
insulators
tunable filters

Enhanced Broad-band Radio Frequency Detection in Nanoscale Magnetic Tunnel Junction by Interface Engineering

Zhang, L., Fang, B., Cai, J., Wu, W., Zhang, B., Wang, B., Amiri, P. K., Finocchio, G. & Zeng, Z., Aug 14 2019, In : ACS Applied Materials and Interfaces. 11, 32, p. 29382-29387 6 p.

Research output: Contribution to journalArticle

Tunnel junctions
Bandwidth
Energy harvesting
Magnetic anisotropy
Nanoelectronics
7 Citations (Scopus)

Experimental Demonstration of Spintronic Broadband Microwave Detectors and Their Capability for Powering Nanodevices

Fang, B., Carpentieri, M., Louis, S., Tiberkevich, V., Slavin, A., Krivorotov, I. N., Tomasello, R., Giordano, A., Jiang, H., Cai, J., Fan, Y., Zhang, Z., Zhang, B., Katine, J. A., Wang, K. L., Amiri, P. K., Finocchio, G. & Zeng, Z., Jan 10 2019, In : Physical Review Applied. 11, 1, 014022.

Research output: Contribution to journalArticle

diodes
rectification
broadband
microwaves
detectors