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22 results on '"Habiboglu, Ali"'

1. Experimental demonstration of magnetic tunnel junction-based computational random-access memory

Author

Lv, Yang, Zink, Brandon R., Bloom, Robert P., Cılasun, Hüsrev, Khanal, Pravin, Resch, Salonik, Chowdhury, Zamshed, Habiboglu, Ali, Wang, Weigang, Sapatnekar, Sachin S., Karpuzcu, Ulya, and Wang, Jian-Ping

Subjects
Computer Science - Emerging Technologies, Condensed Matter - Mesoscale and Nanoscale Physics, Computer Science - Artificial Intelligence, Computer Science - Hardware Architecture, Electrical Engineering and Systems Science - Systems and Control
Abstract

Conventional computing paradigm struggles to fulfill the rapidly growing demands from emerging applications, especially those for machine intelligence, because much of the power and energy is consumed by constant data transfers between logic and memory modules. A new paradigm, called "computational random-access memory (CRAM)" has emerged to address this fundamental limitation. CRAM performs logic operations directly using the memory cells themselves, without having the data ever leave the memory. The energy and performance benefits of CRAM for both conventional and emerging applications have been well established by prior numerical studies. However, there lacks an experimental demonstration and study of CRAM to evaluate its computation accuracy, which is a realistic and application-critical metrics for its technological feasibility and competitiveness. In this work, a CRAM array based on magnetic tunnel junctions (MTJs) is experimentally demonstrated. First, basic memory operations as well as 2-, 3-, and 5-input logic operations are studied. Then, a 1-bit full adder with two different designs is demonstrated. Based on the experimental results, a suite of modeling has been developed to characterize the accuracy of CRAM computation. Scalar addition, multiplication, and matrix multiplication, which are essential building blocks for many conventional and machine intelligence applications, are evaluated and show promising accuracy performance. With the confirmation of MTJ-based CRAM's accuracy, there is a strong case that this technology will have a significant impact on power- and energy-demanding applications of machine intelligence.

Published
2023

3. Impact of Boron doping to the tunneling magnetoresistance of Heusler alloy Co2FeAl

Author

Habiboglu, Ali, Chandak, Yash, Khanal, Pravin, Zhou, Bowei, Eckel, Carter, Warrilow, Jacob Cutshall Kennedy, O'Brien, John, Schaibley, John R., Leroy, Brian J., and Wang, Wei-Gang

Subjects
Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter
Abstract

Heusler alloys based magnetic tunnel junctions can potentially provide high magnetoresistance, small damping and fast switching. Here junctions with Co2FeAl as a ferromagnetic electrode are fabricated by room temperature sputtering on Si/SiO2 substrates. The doping of Boron in Co2FeAl is found to have a large positive impact on the structural, magnetic and transport properties of the junctions, with a reduced interfacial roughness and substantial improved tunneling magnetoresistance. A two-level magnetoresistance is also observed in samples annealed at low temperature, which is believed to be related to the memristive effect of the tunnel barrier with impurities., Comment: 9 pages, 4 figures

Published
2022
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4. Interplay of symmetry-conserved tunneling, interfacial oxidation and perpendicular magnetic anisotropy in CoFeB/MgO-based junctions

Author

Khanal, Pravin, Zhou, Bowei, Almasi, Hamid, Habiboglu, Ali, Andrade, Magda, O'Brien, Jack, Enriquez, Arthur, Eckel, Carter, Mastrangelo, Christopher, and Wang, Wei-Gang

Subjects
Physics - Applied Physics
Abstract

The interfacial oxidation level and thermodynamic properties of the MgO-based perpendicular magnetic tunneling junctions are investigated. The symmetry-conserved tunneling effect depends sensitively on the MgO adatom energy during the RF sputtering, as well as the thermal stability of the structure during the post-growth thermal annealing. Two different failure modes of the magnetoresistance are highlighted, involving with the decay of perpendicular magnetic anisotropy and destruction of coherent tunneling channels, respectively. Through the careful control of interfacial oxidation level and proper selection of the heavy metal layers, both perpendicular magnetic anisotropy and tunneling magnetoresistance of the junctions can be increased.

Published
2022

5. Perpendicular magnetic anisotropy, tunneling magnetoresistance and spin-transfer torque effect in magnetic tunnel junctions with Nb layers

Author

Zhou, Bowei, Khanal, Pravin, Benally, Onri Jay, Lyu, Deyuan, Gopman, Daniel B., Enriquez, Arthur, Habiboglu, Ali, Warrilow, Kennedy, Wang, Jian-Ping, and Wang, Wei-Gang

Subjects
Physics - Applied Physics
Abstract

Nb and its compounds are widely used in quantum computing due to their high superconducting transition temperatures and high critical fields. Devices that combine superconducting performance and spintronic non-volatility could deliver unique functionality. Here we report the study of magnetic tunnel junctions with Nb as the heavy metal layers. An interfacial perpendicular magnetic anisotropy energy density of 1.85 mJ/m2 was obtained in Nb/CoFeB/MgO heterostructures. The tunneling magnetoresistance was evaluated in junctions with different thickness combinations and different annealing conditions. An optimized magnetoresistance of 120% was obtained at room temperature, with a damping parameter of 0.011 determined by ferromagnetic resonance. In addition, spin-transfer torque switching has also been successfully observed in these junctions with a quasistatic switching current density of 7.3*10^5 A/cm2.

Published
2022

6. Enhanced magnetoresistance in perpendicular magnetic tunneling junctions with MgAl2O4 barrier

Author

Khanal, Pravin, Zhou, Bowei, Andrade, Magda, Mastrangelo, Christopher, Habiboglu, Ali, Enriquez, Arthur, Fox, Daulton, Warrilow, Kennedy, and Wang, Wei-Gang

Subjects
Condensed Matter - Materials Science
Abstract

Perpendicular magnetic tunnel junction with MgAl2O4 barrier is investigated. It is found that reactive RF sputtering with O2 is essential to obtain strong perpendicular magnetic anisotropy and large tunneling magnetoresistance in MgAl2O4-based junctions. An interfacial perpendicular magnetic anisotropy energy density of 2.25 mJ/m2 is obtained for the samples annealed at 400C. An enhanced magnetoresistance of 60% has also been achieved. The Vhalf, bias voltage at which tunneling magnetoresistance drops to half of the zero-bias value, is found to be about 1V, which is substantially higher than that of MgO-based junctions.

Published
2022
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7. Perpendicular magnetic tunnel junctions with multi-interface free layer

Author

Khanal, Pravin, Zhou, Bowei, Andrade, Magda, Dang, Yanliu, Davydov, Albert, Habiboglu, Ali, Saidian, Jonah, Laurie, Adam, Wang, Jian-Ping, Gopman, Daniel B, and Wang, Weigang

Subjects
Condensed Matter - Materials Science
Abstract

Future generations of magnetic random access memory demand magnetic tunnel junctions that can provide simultaneously high magnetoresistance, strong retention, low switching energy and small cell size below 10nm. Here we study perpendicular magnetic tunnel junctions with composite free layers where multiple ferromagnet/nonmagnet interfaces can contribute to the thermal stability. Different nonmagnetic materials (MgO, Ta, Mo) have been employed as the coupling layers in these multi-interface free layers. The evolution of junction properties under different annealing conditions is investigated. A strong dependence of tunneling magnetoresistance on the thickness of the first CoFeB layer has been observed. In junctions where Mo and MgO are used as coupling layers, large tunneling magnetoresistance above 200% has been achieved after 400{\deg}C annealing.

Published
2022
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9. Voltage-controlled antiferromagnetism in magnetic tunnel junctions

Author

Xu, Meng, Li, Mingen, Khanal, Pravin, Habiboglu, Ali, Insana, Blake, Xiong, Yuzan, Peterson, Thomas, Myers, Jason C., Ortega, Deborah, Qu, Hongwei, Chien, C. L., Zhang, Wei, Wang, Jian-Ping, and Wang, W. G.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

We demonstrate a voltage-controlled exchange bias effect in CoFeB/MgO/CoFeB magnetic tunnel junctions that is related to the interfacial Fe(Co)Ox formed between the CoFeB electrodes and the MgO barrier. The unique combination of interfacial antiferromagnetism, giant tunneling magnetoresistance, and sharp switching of the perpendicularly-magnetized CoFeB allows sensitive detection of the exchange bias. It is found that the exchange bias field can be isothermally controlled by magnetic fields at low temperatures. More importantly, the exchange bias can also be effectively manipulated by the electric field applied to the MgO barrier due to the voltage-controlled antiferromagnetic anisotropy in this system.

Published
2021
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10. Observation of anti-damping spin-orbit torques generated by in-plane and out-of-plane spin polarizations in MnPd3

Author

DC, Mahendra, Shao, Ding-Fu, Hou, Vincent D. -H., Quarterman, P., Habiboglu, Ali, Venuti, Brooks, Miura, Masashi, Kirby, Brian, Vailionis, Arturas, Bi, Chong, Li, Xiang, Xue, Fen, Huang, Yen-Lin, Deng, Yong, Lin, Shy-Jay, Tsai, Wilman, Eley, Serena, Wang, Weigang, Borchers, Julie A., Tsymbal, Evgeny Y., and Wang, Shan X.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

High spin-orbit torques (SOTs) generated by topological materials and heavy metals interfaced with a ferromagnetic layer show promise for next generation magnetic memory and logic devices. SOTs generated from the in-plane spin polarization along y-axis originated by the spin Hall and Edelstein effects can switch magnetization collinear with the spin polarization in the absence of external magnetic fields. However, an external magnetic field is required to switch the magnetization along x and z-axes via SOT generated by y-spin polarization. Here, we present that the above limitation can be circumvented by unconventional SOT in magnetron-sputtered thin film MnPd3. In addition to the conventional in-plane anti-damping-like torque due to the y-spin polarization, out-of-plane and in-plane anti-damping-like torques originating from z-spin and x-spin polarizations, respectively have been observed at room temperature. The spin torque efficiency corresponding to the y-spin polarization from MnPd3 thin films grown on thermally oxidized silicon substrate and post annealed at 400 Deg C is 0.34 - 0.44. Remarkably, we have demonstrated complete external magnetic field-free switching of perpendicular Co layer via unconventional out-of-plane anti-damping-like torque from z-spin polarization. Based on the density functional theory calculations, we determine that the observed x- and z- spin polarizations with the in-plane charge current are due to the low symmetry of the (114) oriented MnPd3 thin films. Taken together, the new material reported here provides a path to realize a practical spin channel in ultrafast magnetic memory and logic devices.

Published
2020

11. Observation of anti-damping spin–orbit torques generated by in-plane and out-of-plane spin polarizations in MnPd3

Author

DC, Mahendra, Shao, Ding-Fu, Hou, Vincent D.-H., Vailionis, Arturas, Quarterman, P., Habiboglu, Ali, Venuti, M. B., Xue, Fen, Huang, Yen-Lin, Lee, Chien-Min, Miura, Masashi, Kirby, Brian, Bi, Chong, Li, Xiang, Deng, Yong, Lin, Shy-Jay, Tsai, Wilman, Eley, Serena, Wang, Wei-Gang, Borchers, Julie A., Tsymbal, Evgeny Y., and Wang, Shan X.

Published
2023
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12. The impact of boron doping in the tunneling magnetoresistance of Heusler alloy Co2FeAl.

Author

Habiboglu, Ali, Chandak, Yash, Khanal, Pravin, Larsen, Brecken, Zhou, Bowei, Eckel, Carter, Cutshall, Jacob, Warrilow, Kennedy, O'Brien, John, Hong, Brady, Schaibley, John R., Leroy, Brian J., and Wang, Weigang

Subjects
*TUNNEL magnetoresistance, *HEUSLER alloys, *MAGNETIC tunnelling, *ATOMIC force microscopes, *INTERFACIAL roughness, *QUANTUM tunneling
Abstract

Heusler alloy-based magnetic tunnel junctions have the potential to provide high spin polarization, small damping, and fast switching. In this study, junctions with a ferromagnetic electrode of Co2FeAl were fabricated via room-temperature sputtering on Si/SiO2 substrates. The effect of boron doping on Co2FeAl magnetic tunnel junctions was investigated for different boron concentrations. The surface roughness determined by atomic force microscope, and the analysis of x-ray diffraction measurement on the Co2FeAl thin film reveals critical information about the interface. The Co2FeAl layer was deposited on the bottom and on the top of the insulating MgO layer as two different sample structures to compare the impact of the boron doping on different layers through tunneling magnetoresistance measurements. The doping of boron in Co2FeAl had a large positive impact on the structural and magneto-transport properties of the junctions, with reduced interfacial roughness and substantial improvement in tunneling magnetoresistance. In samples annealed at low temperature, a two-level magnetoresistance was also observed. This is believed to be related to the memristive effect of the tunnel barrier. The findings of this study have practical uses for the design and fabrication of magnetic tunnel junctions with improved magneto-transport properties. [ABSTRACT FROM AUTHOR]

Published
2023
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13. Observation of Magnetic Radial Vortex Nucleation in a Multilayer Stack with Tunable Anisotropy

Author

Karakas, Vedat, Gokce, Aisha, Habiboglu, Ali Taha, Arpaci, Sevdenur, Ozbozduman, Kaan, Cinar, Ibrahim, Yanik, Cenk, Tomasello, Riccardo, Tacchi, Silvia, Siracusano, Giulio, Carpentieri, Mario, Finocchio, Giovanni, Hauet, Thomas, and Ozatay, Ozhan

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Recently discovered exotic magnetic configurations, namely magnetic solitons appearing in the presence of bulk or interfacial Dzyaloshinskii-Moriya Interaction (i-DMI), have excited scientists to explore their potential applications in emerging spintronic technologies such as race-track magnetic memory, spin logic, radio frequency nano-oscillators and sensors. Such studies are motivated by their foreseeable advantages over conventional micro-magnetic structures due to their small size, topological stability and easy spin-torque driven manipulation with much lower threshold current densities giving way to improved storage capacity, and faster operation with efficient use of energy. In this work, we show that in the presence of i-DMI in Pt/CoFeB/Ti multilayers by tuning the magnetic anisotropy (both in-plane and perpendicular-to-plane) via interface engineering and postproduction treatments, we can stabilize a variety of magnetic configurations such as N\'eel skyrmions, horseshoes and most importantly for the first time, the recently predicted isolated radial vortices at room temperature and under zero bias field. Especially, the radial vortex state with its absolute convergence to or divergence from a single point can potentially offer exciting new applications such as particle trapping/detrapping in addition to magnetoresistive memories with efficient switching, where the radial vortex state can act as a source of spin-polarized current with radial polarization., Comment: 26 pages, 5 figures

Published
2017
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14. The impact of boron doping in the tunneling magnetoresistance of Heusler alloy Co2FeAl

Author

Habiboglu, Ali, primary, Chandak, Yash, additional, Khanal, Pravin, additional, Larsen, Brecken, additional, Zhou, Bowei, additional, Eckel, Carter, additional, Cutshall, Jacob, additional, Warrilow, Kennedy, additional, O’Brien, John, additional, Hong, Brady, additional, Schaibley, John R., additional, Leroy, Brian J., additional, and Wang, Weigang, additional

Published
2023
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15. L10 FePd-based perpendicular magnetic tunnel junctions with 65% tunnel magnetoresistance and ultralow switching current density.

Author

Lyu, Deyuan, Shoup, Jenae E., Habiboglu, Ali T., Jia, Qi, Khanal, Pravin, Zink, Brandon R., Lv, Yang, Zhou, Bowei, Gopman, Daniel B., Wang, Weigang, and Wang, Jian-Ping

Subjects
MAGNETIC tunnelling, TUNNEL magnetoresistance, MAGNETORESISTANCE
Abstract

L10 FePd is increasingly recognized as a potential candidate for magnetic tunnel junctions (MTJs), yet there remains room for enhancing device performance. In this work, we fabricated fully-integrated L10 FePd-based perpendicular MTJ devices and achieved a significant increase in tunnel magnetoresistance, reaching ∼65%, compared to the previous record of 25%. Notably, we observed bi-directional switching with a low switching current density of about 1.4 × 105 A/cm2, which outperforms the typical spin-transfer torque (STT) MTJ by about one order of magnitude. We propose two possible mechanisms to elucidate the switching process and associated device performance: (1) The voltage-controlled exchange coupling-driven switching of the bottom CoFeB layer; (2) The STT-driven switching of the exchange-coupled L10 FePd–CoFeB composite. While additional research is necessary, these findings may further advance the integration of L10 FePd into spintronic devices, potentially enabling low-energy memory and logic technologies. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Observation of anti-damping spin-orbit torques generated by in-plane and out-of-plane spin polarizations in MnPd3

Author

DC, Mahendra, primary, Shao, Ding-Fu, additional, Hou, Vincent, additional, Quarterman, Patrick, additional, Habiboglu, Ali, additional, Venuti, Brooks, additional, Miura, Masashi, additional, Kirby, Brian, additional, Vailionis, Arturas, additional, Bi, Chong, additional, Li, Xiang, additional, Xue, Fen, additional, Huang, Yen-Lin, additional, Deng, Yong, additional, Lin, Shy-Jay, additional, Tsai, Wilman, additional, Eley, Serena, additional, Wang, Weigang, additional, Borchers, Julie, additional, Tsymbal, Evgeny, additional, and Wang, Shan, additional

Published
2021
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19. Voltage-Controlled Antiferromagnetism in Magnetic Tunnel Junctions

Author

Xu, Meng, primary, Li, Mingen, additional, Khanal, Pravin, additional, Habiboglu, Ali, additional, Insana, Blake, additional, Xiong, Yuzan, additional, Peterson, Thomas, additional, Myers, Jason C., additional, Ortega, Deborah, additional, Qu, Hongwei, additional, Chien, C. L., additional, Zhang, Wei, additional, Wang, Jian-Ping, additional, and Wang, W. G., additional

Published
2020
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20. Observation of Magnetic Radial Vortex Nucleation in a Multilayer Stack with Tunable Anisotropy

Author

Karakas, Vedat, primary, Gokce, Aisha, additional, Habiboglu, Ali Taha, additional, Arpaci, Sevdenur, additional, Ozbozduman, Kaan, additional, Cinar, Ibrahim, additional, Yanik, Cenk, additional, Tomasello, Riccardo, additional, Tacchi, Silvia, additional, Siracusano, Giulio, additional, Carpentieri, Mario, additional, Finocchio, Giovanni, additional, Hauet, Thomas, additional, and Ozatay, Ozhan, additional

Published
2018
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22. Voltage-Controlled Antiferromagnetism in Magnetic Tunnel Junctions.

Author

Meng Xu, Mingen Li, Khanal, Pravin, Habiboglu, Ali, Insana, Blake, Yuzan Xiong, Peterson, Thomas, Myers, Jason C., Ortega, Deborah, Hongwei Qu, Chien, C. L., Wei Zhang, Jian-Ping Wang, and Wang, W. G.

Subjects
*MAGNETIC tunnelling, *TUNNEL magnetoresistance, *ANTIFERROMAGNETISM, *GIANT magnetoresistance, *MAGNETIC control, *MAGNETIC fields
Abstract

We demonstrate a voltage-controlled exchange bias effect in CoFeB/MgO/CoFeB magnetic tunnel junctions that is related to the interfacial Fe(Co)Ox formed between the CoFeB electrodes and the MgO barrier. The unique combination of interfacial antiferromagnetism, giant tunneling magnetoresistance, and sharp switching of the perpendicularly magnetized CoFeB allows sensitive detection of the exchange bias. We find that the exchange bias field can be isothermally controlled by magnetic fields at low temperatures. More importantly, the exchange bias can also be effectively manipulated by the electric field applied to the MgO barrier due to the voltage-controlled antiferromagnetic anisotropy in this system. [ABSTRACT FROM AUTHOR]

Published
2020
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