Band structure evolution and the origin of magnetism in (Ga,Mn)As: From paramagnetic through superparamagnetic to ferromagnetic phase

Gluba, Lukasz; Yastrubchak, O.; Domagała, J. Z.; Jakieła, R.; Andrearczyk, T.; Żuk, J.; Wosiński, T.; Sadowski, J.; Sawicki, M.

doi:10.1103/physrevb.97.115201

Cited by 27 publications

(22 citation statements)

References 73 publications

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“…This feature may be helpful for obtaining higher T C in n-type DMS systems. Another concern we should note is the superparamagnetic-like fragments caused by the fluctuations of the carrier density [46][47][48][49] . If the dynamic frequency of these superparamagnetic-like fragments is smaller than the lower frequency limit of µSR that is ∼ 10 4 Hz, µSR will treat them static.…”

Section: F Discussionmentioning

confidence: 99%

Ba(Zn,Co)2As2 : A diluted ferromagnetic semiconductor with n
Guo
¹
,
Man
²
,
Wang
³

et al. 2019
Phys. Rev. B
20
1
19
0
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We report the successful synthesis of a "122" diluted ferromagnetic semiconductor with n-type carriers, Ba(Zn,Co)2As2. Magnetization measurements show that the ferromagnetic transition occurs up to TC ∼ 45 K. Hall effect and Seebeck effect measurements jointly confirm that the dominant carriers are electrons. Through muon spin relaxation (µSR), a volume sensitive magnetic probe, we have also confirmed that the ferromagnetism in Ba(Zn,Co)2As2 is intrinsic and the internal field is static.

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Section: F Discussionmentioning

confidence: 99%

Ba(Zn,Co)2As2 : A diluted ferromagnetic semiconductor with n
Guo
¹
,
Man
²
,
Wang
³

et al. 2019
Phys. Rev. B
20
1
19
0
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“…From micro-Raman spectra, the hole concentrations have been estimated to be about 10 19 and 10 20 cm −3 in the films with 2.5% and 5.6% Mn content, respectively [44,45]. The obtained results suggest that, similarly to (Ga,Mn)As [44], the (In,Ga,Mn)As film with 2.5% Mn shows properties of an insulator-like material whereas the film with 5.6% Mn is similar to a metallic one [46].…”

Section: A Hole Concentrationsmentioning

confidence: 99%

Site-specific atomic order and band structure tailoring in the diluted magnetic semiconductor (In,Ga,Mn)As

et al. 2021

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Diluted ferromagnetic semiconductors combining ferromagnetic and semiconducting properties in one material provide numerous new functionalities, attractive for basic studies and potentially useful for novel device applications. The tailoring of the electronic structure in analogy to conventional semiconductors has yet to be explored. Here, we demonstrate the conservation of broken inversion symmetry and band structure tailoring for high-quality molecular-beam-epitaxy-grown (In,Ga,Mn)As films with 3% In plus 2.5% or 5.6% Mn using hard-x-ray photoelectron diffraction (hXPD) and momentum microscopy. Photon energies of 3-5 keV ensure that the results are not corrupted by surface effects, which are known to be strong in semiconductors. The missing inversion center of the GaAs host lattice leads to fingerprint-like hXPD signatures of As and Ga sites. For both concentrations, Mn predominantly occupies Ga substitutional sites. Momentum microscopy reveals a shift of the chemical potential with increasing Mn doping and a highly dispersing band, crossing the Fermi level for high Mn concentration. The Mn doping induces a pronounced modification of the spin-orbit split-off band.

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“…43 So, as long as the growth conditions are not altered, 44 there can only be fluctuations in the local density of states that could end up in a patchwork of spontaneously magnetized volumes (T C > T 0 ) containing a sufficiently high hole density to assure the FM spin-spin ordering within their phase coherence length. In this scenario the rest of the material with too low hole density to mediate the effective coupling remains nonmagnetic at the relevant temperature range (T > T 0 ), 40,45 where T 0 is the base temperature of an experimental setup.…”

Section: Magnetic Propertiesmentioning

confidence: 99%

Enhanced Ferromagnetism in Cylindrically Confined MnAs Nanocrystals Embedded in Wurtzite GaAs Nanowire Shells

et al. 2019

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Nearly a 30% increase in the ferromagnetic phase transition temperature has been achieved in strained MnAs nanocrystals embedded in a wurtzite GaAs matrix. Wurtzite GaAs exerts tensile stress on hexagonal MnAs nanocrystals, preventing a hexagonal to orthorhombic structural phase transition, which in bulk MnAs is combined with the magnetic one. This effect results in a remarkable shift of the magneto-structural phase transition temperature from 313 K in the bulk MnAs to above 400 K in the tensely strained MnAs nanocrystals. This finding is corroborated by the state of the art transmission electron microscopy, sensitive magnetometry, and the first-principles calculations. The effect relies on defining a nanotube geometry of molecular beam epitaxy grown core−multishell wurtzite (Ga,In)As/(Ga,Al)As/(Ga,Mn)As/GaAs nanowires, where the MnAs nanocrystals are formed during the thermal-treatment-induced phase separation of wurtzite (Ga,Mn)As into the GaAs−MnAs granular system. Such a unique combination of two types of hexagonal lattices provides a possibility of attaining quasi-hydrostatic tensile strain in MnAs (impossible otherwise), leading to the substantial ferromagnetic phase transition temperature increase in this compound.

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Band structure evolution and the origin of magnetism in (Ga,Mn)As: From paramagnetic through superparamagnetic to ferromagnetic phase

Cited by 27 publications

References 73 publications

Ba(Zn,Co)2As2 : A diluted ferromagnetic semiconductor with n
Guo
¹
,
Man
²
,
Wang
³

et al. 2019
Phys. Rev. B
20
1
19
0
View full text Add to dashboard Cite

Ba(Zn,Co)2As2 : A diluted ferromagnetic semiconductor with n
Guo
¹
,
Man
²
,
Wang
³

et al. 2019
Phys. Rev. B
20
1
19
0
View full text Add to dashboard Cite

Site-specific atomic order and band structure tailoring in the diluted magnetic semiconductor (In,Ga,Mn)As

Enhanced Ferromagnetism in Cylindrically Confined MnAs Nanocrystals Embedded in Wurtzite GaAs Nanowire Shells

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Band structure evolution and the origin of magnetism in (Ga,Mn)As: From paramagnetic through superparamagnetic to ferromagnetic phase

Cited by 27 publications

References 73 publications

Ba(Zn,Co)2As2 : A diluted ferromagnetic semiconductor with nGuo1, Man2, Wang3 et al. 2019Phys. Rev. B201190View full textAdd to dashboardCite

Ba(Zn,Co)2As2 : A diluted ferromagnetic semiconductor with nGuo1, Man2, Wang3 et al. 2019Phys. Rev. B201190View full textAdd to dashboardCite

Site-specific atomic order and band structure tailoring in the diluted magnetic semiconductor (In,Ga,Mn)As

Enhanced Ferromagnetism in Cylindrically Confined MnAs Nanocrystals Embedded in Wurtzite GaAs Nanowire Shells

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Product

Resources

About

Ba(Zn,Co)2As2 : A diluted ferromagnetic semiconductor with n
Guo
¹
,
Man
²
,
Wang
³

et al. 2019
Phys. Rev. B
20
1
19
0
View full text Add to dashboard Cite

Ba(Zn,Co)2As2 : A diluted ferromagnetic semiconductor with n
Guo
¹
,
Man
²
,
Wang
³

et al. 2019
Phys. Rev. B
20
1
19
0
View full text Add to dashboard Cite