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Strain-modulated helimagnetism and emergent magnetic phase diagrams in highly crystalline MnP nanorod films

We explore strain-modulated helimagnetism in highly crystalline MnP nanorod films grown on Si(100) substrates using molecular beam epitaxy. The strained MnP film exhibits a paramagnetic to ferromagnetic (FM) phase transition at T C ∼ 279 K , and the FM to helical phase transition at T N ∼...

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Tác giả chính: Richa Pokharel Madhogaria, Chang-Ming Hung, Baleeswaraiah Muchharla, Anh Tuan Duong, Raja Das, Pham Thanh Huy, Sunglae Cho, Sarath Witanachchi, Hariharan Srikanth, Manh-Huong Phan
Định dạng: Bài Báo
Ngôn ngữ:English
Nhà xuất bản: PHYSICAL REVIEW B 2021
Truy cập trực tuyến:https://journals.aps.org/prb/abstract/10.1103/PhysRevB.103.184423
https://dlib.phenikaa-uni.edu.vn/handle/PNK/2683
https://doi.org/10.1103/PhysRevB.103.184423
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spelling oai:localhost:PNK-26832022-08-17T05:54:47Z Strain-modulated helimagnetism and emergent magnetic phase diagrams in highly crystalline MnP nanorod films Richa Pokharel Madhogaria Chang-Ming Hung Baleeswaraiah Muchharla Anh Tuan Duong Raja Das Pham Thanh Huy Sunglae Cho Sarath Witanachchi Hariharan Srikanth Manh-Huong Phan We explore strain-modulated helimagnetism in highly crystalline MnP nanorod films grown on Si(100) substrates using molecular beam epitaxy. The strained MnP film exhibits a paramagnetic to ferromagnetic (FM) phase transition at T C ∼ 279 K , and the FM to helical phase transition at T N ∼ 110 K . The value of T N is greater than T N ∼ 47 K for the MnP single crystal, indicating strong strain-modulated helimagnetic states in the MnP nanorod film. The presence of significant thermal hysteresis in the helical phase indicates the coexistence of competing magnetic interactions, leading to the first-order metamagnetic transition. Similar to its single-crystal counterpart, an anisotropic magnetic effect is observed in the MnP film, which is independently confirmed by magnetic hysteresis loop and radio-frequency transverse susceptibility (TS) measurements. The evolution of the screw to the cone and fan phases is precisely tracked from magnetization vs magnetic field/temperature measurements. The temperature dependence of the anisotropy fields, extracted from the TS spectra, yields further insight into the competing nature of the magnetic phases. Unfolding of the different helical phases at T < 120 K ( ∼ T N) is analyzed by the temperature- and field-dependent magnetic entropy change. Based on these findings, the comprehensive magnetic phase diagrams of the MnP nanorod film are constructed for both the in-plane and out of plane magnetic field directions, revealing emergent strain/dimensionality-driven helical magnetic features that are absent in the magnetic phase diagram of the MnP single crystal. 2021-09-09T09:46:56Z 2021-09-09T09:46:56Z 2021 Article https://journals.aps.org/prb/abstract/10.1103/PhysRevB.103.184423 https://dlib.phenikaa-uni.edu.vn/handle/PNK/2683 https://doi.org/10.1103/PhysRevB.103.184423 en PHYSICAL REVIEW B
institution Digital Phenikaa
collection Digital Phenikaa
language English
description We explore strain-modulated helimagnetism in highly crystalline MnP nanorod films grown on Si(100) substrates using molecular beam epitaxy. The strained MnP film exhibits a paramagnetic to ferromagnetic (FM) phase transition at T C ∼ 279 K , and the FM to helical phase transition at T N ∼ 110 K . The value of T N is greater than T N ∼ 47 K for the MnP single crystal, indicating strong strain-modulated helimagnetic states in the MnP nanorod film. The presence of significant thermal hysteresis in the helical phase indicates the coexistence of competing magnetic interactions, leading to the first-order metamagnetic transition. Similar to its single-crystal counterpart, an anisotropic magnetic effect is observed in the MnP film, which is independently confirmed by magnetic hysteresis loop and radio-frequency transverse susceptibility (TS) measurements. The evolution of the screw to the cone and fan phases is precisely tracked from magnetization vs magnetic field/temperature measurements. The temperature dependence of the anisotropy fields, extracted from the TS spectra, yields further insight into the competing nature of the magnetic phases. Unfolding of the different helical phases at T < 120 K ( ∼ T N) is analyzed by the temperature- and field-dependent magnetic entropy change. Based on these findings, the comprehensive magnetic phase diagrams of the MnP nanorod film are constructed for both the in-plane and out of plane magnetic field directions, revealing emergent strain/dimensionality-driven helical magnetic features that are absent in the magnetic phase diagram of the MnP single crystal.
format Article
author Richa Pokharel Madhogaria
Chang-Ming Hung
Baleeswaraiah Muchharla
Anh Tuan Duong
Raja Das
Pham Thanh Huy
Sunglae Cho
Sarath Witanachchi
Hariharan Srikanth
Manh-Huong Phan
spellingShingle Richa Pokharel Madhogaria
Chang-Ming Hung
Baleeswaraiah Muchharla
Anh Tuan Duong
Raja Das
Pham Thanh Huy
Sunglae Cho
Sarath Witanachchi
Hariharan Srikanth
Manh-Huong Phan
Strain-modulated helimagnetism and emergent magnetic phase diagrams in highly crystalline MnP nanorod films
author_facet Richa Pokharel Madhogaria
Chang-Ming Hung
Baleeswaraiah Muchharla
Anh Tuan Duong
Raja Das
Pham Thanh Huy
Sunglae Cho
Sarath Witanachchi
Hariharan Srikanth
Manh-Huong Phan
author_sort Richa Pokharel Madhogaria
title Strain-modulated helimagnetism and emergent magnetic phase diagrams in highly crystalline MnP nanorod films
title_short Strain-modulated helimagnetism and emergent magnetic phase diagrams in highly crystalline MnP nanorod films
title_full Strain-modulated helimagnetism and emergent magnetic phase diagrams in highly crystalline MnP nanorod films
title_fullStr Strain-modulated helimagnetism and emergent magnetic phase diagrams in highly crystalline MnP nanorod films
title_full_unstemmed Strain-modulated helimagnetism and emergent magnetic phase diagrams in highly crystalline MnP nanorod films
title_sort strain-modulated helimagnetism and emergent magnetic phase diagrams in highly crystalline mnp nanorod films
publisher PHYSICAL REVIEW B
publishDate 2021
url https://journals.aps.org/prb/abstract/10.1103/PhysRevB.103.184423
https://dlib.phenikaa-uni.edu.vn/handle/PNK/2683
https://doi.org/10.1103/PhysRevB.103.184423
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score 8.887836

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