Optimum thickness of soft magnetic phase in FePt/FeCo permanent magnet superlattices with high energy product and large magnetic anisotropy energy

Optimum thickness of soft magnetic phase in FePt/FeCo permanent magnet superlattices with high energy product and large magnetic anisotropy energy

Ab initio calculations on hard/soft (FePt)m/(FeCo)n, (m = 4, 6, 8 and n = 2-2m) magnetic superlattices show that the B2 type FeCo layers become anisotropic with varying interlayer spacing and enhanced magnetic moments. The average magnetic moment in superlattices is higher than in bulk FePt, resulti...

Full description

Bibliographic Details
Main Authors: Sandeep Kumar Jain, Bheema Lingam Chittari, Vijay Kumar
Format: Article
Language:English
Published: AIP Publishing LLC 2016-02-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.4943082
id doaj-9ee64b7ff6b34c31a95eebe54ae50127
record_format Article
spelling doaj-9ee64b7ff6b34c31a95eebe54ae501272020-11-24T22:47:17ZengAIP Publishing LLCAIP Advances2158-32262016-02-0162025027025027-710.1063/1.4943082091602ADVOptimum thickness of soft magnetic phase in FePt/FeCo permanent magnet superlattices with high energy product and large magnetic anisotropy energySandeep Kumar Jain0Bheema Lingam Chittari1Vijay Kumar2Dr. Vijay Kumar Foundation, 1969 Sector 4, Gurgaon-122001, Haryana, IndiaDr. Vijay Kumar Foundation, 1969 Sector 4, Gurgaon-122001, Haryana, IndiaDr. Vijay Kumar Foundation, 1969 Sector 4, Gurgaon-122001, Haryana, IndiaAb initio calculations on hard/soft (FePt)m/(FeCo)n, (m = 4, 6, 8 and n = 2-2m) magnetic superlattices show that the B2 type FeCo layers become anisotropic with varying interlayer spacing and enhanced magnetic moments. The average magnetic moment in superlattices is higher than in bulk FePt, resulting in high maximum energy product for (FePt)4/(FeCo)8 which is nearly double the calculated value for bulk FePt. The calculation of the magnetic anisotropy energy shows that the optimal thickness of the soft magnetic phase for good permanent magnet behaviour of the superlattice is less than ∼2 nm.http://dx.doi.org/10.1063/1.4943082
collection DOAJ
language English
format Article
sources DOAJ
author Sandeep Kumar Jain
Bheema Lingam Chittari
Vijay Kumar
spellingShingle Sandeep Kumar Jain
Bheema Lingam Chittari
Vijay Kumar
Optimum thickness of soft magnetic phase in FePt/FeCo permanent magnet superlattices with high energy product and large magnetic anisotropy energy
AIP Advances
author_facet Sandeep Kumar Jain
Bheema Lingam Chittari
Vijay Kumar
author_sort Sandeep Kumar Jain
title Optimum thickness of soft magnetic phase in FePt/FeCo permanent magnet superlattices with high energy product and large magnetic anisotropy energy
title_short Optimum thickness of soft magnetic phase in FePt/FeCo permanent magnet superlattices with high energy product and large magnetic anisotropy energy
title_full Optimum thickness of soft magnetic phase in FePt/FeCo permanent magnet superlattices with high energy product and large magnetic anisotropy energy
title_fullStr Optimum thickness of soft magnetic phase in FePt/FeCo permanent magnet superlattices with high energy product and large magnetic anisotropy energy
title_full_unstemmed Optimum thickness of soft magnetic phase in FePt/FeCo permanent magnet superlattices with high energy product and large magnetic anisotropy energy
title_sort optimum thickness of soft magnetic phase in fept/feco permanent magnet superlattices with high energy product and large magnetic anisotropy energy
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2016-02-01
description Ab initio calculations on hard/soft (FePt)m/(FeCo)n, (m = 4, 6, 8 and n = 2-2m) magnetic superlattices show that the B2 type FeCo layers become anisotropic with varying interlayer spacing and enhanced magnetic moments. The average magnetic moment in superlattices is higher than in bulk FePt, resulting in high maximum energy product for (FePt)4/(FeCo)8 which is nearly double the calculated value for bulk FePt. The calculation of the magnetic anisotropy energy shows that the optimal thickness of the soft magnetic phase for good permanent magnet behaviour of the superlattice is less than ∼2 nm.
url http://dx.doi.org/10.1063/1.4943082
work_keys_str_mv AT sandeepkumarjain optimumthicknessofsoftmagneticphaseinfeptfecopermanentmagnetsuperlatticeswithhighenergyproductandlargemagneticanisotropyenergy
AT bheemalingamchittari optimumthicknessofsoftmagneticphaseinfeptfecopermanentmagnetsuperlatticeswithhighenergyproductandlargemagneticanisotropyenergy
AT vijaykumar optimumthicknessofsoftmagneticphaseinfeptfecopermanentmagnetsuperlatticeswithhighenergyproductandlargemagneticanisotropyenergy
_version_ 1725682126525825024

Similar Items