Nagarjuna Asam scite author profile

Nagarjuna Asam

5Publications

29Citation Statements Received

112Citation Statements Given

How they've been cited

How they cite others

162

108

Affiliations

National Institute for Materials Science, Kyushu University, Indian Institute of Technology Bombay

Publications

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Observation of thermally driven field-like spin torque in magnetic tunnel junctions

Bose

Shukla

Konishi

et al. 2016

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We report the thermally driven giant field-like spin-torque in magnetic tunnel junctions (MTJ) on application of heat current from top to bottom. The field-like term is detected by the shift of the magneto-resistance hysteresis loop applying temperature gradient. We observed that the field-like term depends on the magnetic symmetry of the MTJ. In asymmetric structures, with different ferromagnetic materials for free and fixed layers, the field-like term is greatly enhanced. Our results show that a pure spin current density of the order of 109 A/m2 can be produced by creating a 120 mK temperature difference across 0.9 nm thick MgO tunnelling barrier. Our results will be useful for writing MTJ and domain wall-based memories using thermally driven spin torque.

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First- and second-harmonic detection of spin accumulation in a multiterminal lateral spin valve under high-bias ac current

Nomura

Ginga

et al. 2016

Phys. Rev. B

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We have investigated the transport properties of electrically and thermally excited spin currents in a lateral spin valve consisting of a spin injector and detector with a middle ferromagnetic wire by detecting the first-and secondharmonic voltages. The first-harmonic spin signal was significantly suppressed by the middle ferromagnetic wire because of the spin absorption effect. On the other hand, in the second-harmonic signal, a small signal related to the middle ferromagnetic wire was observed in addition to a conventional spin signal with a reduced magnitude. This indicates that the additional ferromagnetic wire acts not only as the spin absorber but also as another spin injector under thermal spin injection, because the heat current caused by direct spin injection propagates to the middle ferromagnetic wire and creates another temperature gradient. By using this effect, we show that the magnetization direction of a ferromagnetic nanodot embedded in a nonmagnetic Cu wire becomes measurable.

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Evaluation of spin-transfer-torque efficiency using magnetization reversal against a magnetic field: comparison of FeCr with negative spin polarization and NiFe

Suto¹,

Nakatani²,

Asam³

et al. 2023

Appl. Phys. Express

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We propose and demonstrate an experimental method to evaluate spin-transfer-torque (STT) efficiency in current-perpendicular-to-plane giant magnetoresistance devices, which utilizes STT-induced magnetization reversal against a perpendicular magnetic field. Using, this method, we estimated the STT efficiency of FeCr with negative spin polarization, which attracts attention in spintronics applications. In comparison with NiFe with positive spin polarization, the sign of the STT from FeCr was opposite, reflecting negative spin polarization. The STT efficiency of FeCr was approximately half that of NiFe at room temperature and surpassed that of NiFe at 50 K.

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Modification of the magnetization dynamics of a NiFe nanodot due to thermal spin injection

Asam

Yamanoi

Kimura

2018

J. Phys. D: Appl. Phys.

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An array of NiFe nanodots has been prepared on a Cu/CoFeAl film. Since a thermal spin current is expected to be excited owing to a large spin-dependent Seebeck coefficient for the CoFeAl, we investigate the magnetization dynamics of the NiFe dots under the temperature gradient along the vertical direction. By using vector network analyzer measurements, we have demonstrated that the temperature gradient produces modulations of the frequency of ferromagnetic resonance and the linewidth of the resonance spectra. The observed parabolic dependences are well explained by the damping-like and field-like components of spin transfer torque.

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Study on FeCr thin film for a spintronic material with negative spin polarization

Suto

Nakatani

Kota

et al. 2022

Journal of Magnetism and Magnetic Materials

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Nagarjuna Asam

Observation of thermally driven field-like spin torque in magnetic tunnel junctions

First- and second-harmonic detection of spin accumulation in a multiterminal lateral spin valve under high-bias ac current

Evaluation of spin-transfer-torque efficiency using magnetization reversal against a magnetic field: comparison of FeCr with negative spin polarization and NiFe

Modification of the magnetization dynamics of a NiFe nanodot due to thermal spin injection

Study on FeCr thin film for a spintronic material with negative spin polarization

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