Magnetotransport of (Cd1 - x - yZnxMny)3As2 under pressure

Laiho Reino; Lisunov Konstantin; Shubnikov M.; Stamov Vladimir; Zakhvalinskii Vasilii

Conţinutul numărului revistei

Articolul precedent

Articolul urmator

180

SM ISO690:2012

LAIHO, Reino, LISUNOV, Konstantin, SHUBNIKOV, M., STAMOV, Vladimir, ZAKHVALINSKII, Vasilii. Magnetotransport of (Cd1 - x - yZnxMny)3As2 under pressure. In: Physica Status Solidi (B) Basic Research, 1999, vol. 211, pp. 559-564. ISSN 0370-1972. DOI: https://doi.org/10.1002/(SICI)1521-3951(199901)211:1<559::AID-PSSB559>3.0.CO;2-4

EXPORT metadate:
Google Scholar
Crossref
CERIF

DataCite
Dublin Core

Physica Status Solidi (B) Basic Research

Volumul 211 / 1999 / ISSN 0370-1972

Magnetotransport of (Cd_{1 - x - y}Zn_xMn_y)₃As₂ under pressure

DOI:https://doi.org/10.1002/(SICI)1521-3951(199901)211:1<559::AID-PSSB559>3.0.CO;2-4

Pag. 559-564

Laiho Reino¹, Lisunov Konstantin², Shubnikov M.³, Stamov Vladimir², Zakhvalinskii Vasilii²

¹ Wihuri Physical Laboratory, University of Turku,
² Institute of Applied Physics, Academy of Sciences of Moldova,
³ Institute of Nuclear Research

Disponibil în IBN: 19 septembrie 2023

Descarcă PDF

Rezumat

We have investigated the Hall and Shubnikov-de Haas effects in single crystals of the group II₃V₂ diluted magnetic semiconductor (Cd_1-x-yZn_xMn_y)₃As₂ (x + y = 0.2, y = 0.02 to 0.08) at temperatures in the range of 4.2 to 30 K and magnetic fields up to 12 T under hydrostatic pressures up to 1.1 GPa. Values of the Hall concentration, the Hall mobility and the band parameters have been determined and analyzed. The anomalous magnetic field dependence of the electron effective mass is found to be much weaker than in samples with x + y = 0.3 investigated previously. This agrees with the model of the effective-mass anomaly in (Cd_1-x-yZn_xMn_y)₃As₂ proposed recently.

Cuvinte-cheie
Diluted Magnetic Semiconductors, Ferromagnetism, Magnetic Properties

Cerif XML Export

<?xml version='1.0' encoding='utf-8'?>
<CERIF xmlns='urn:xmlns:org:eurocris:cerif-1.5-1' xsi:schemaLocation='urn:xmlns:org:eurocris:cerif-1.5-1 http://www.eurocris.org/Uploads/Web%20pages/CERIF-1.5/CERIF_1.5_1.xsd' xmlns:xsi='http://www.w3.org/2001/XMLSchema-instance' release='1.5' date='2012-10-07' sourceDatabase='Output Profile'>
<cfResPubl>
<cfResPublId>ibn-ResPubl-187456</cfResPublId>
<cfResPublDate>1999-01-01</cfResPublDate>
<cfStartPage>559</cfStartPage>
<cfISSN>0370-1972</cfISSN>
<cfURI>https://ibn.idsi.md/ro/vizualizare_articol/187456</cfURI>
<cfTitle cfLangCode='EN' cfTrans='o'>Magnetotransport of (Cd1 - x - yZnxMny)3As2 under pressure</cfTitle>
<cfKeyw cfLangCode='EN' cfTrans='o'>Diluted Magnetic Semiconductors; Ferromagnetism; Magnetic Properties</cfKeyw>
<cfAbstr cfLangCode='EN' cfTrans='o'><p>We have investigated the Hall and Shubnikov-de Haas effects in single crystals of the group II<sub>3</sub>V<sub>2</sub>&nbsp;diluted magnetic semiconductor (Cd<sub>1-x-y</sub>Zn<sub>x</sub>Mn<sub>y</sub>)<sub>3</sub>As<sub>2</sub>&nbsp;(x + y = 0.2, y = 0.02 to 0.08) at temperatures in the range of 4.2 to 30 K and magnetic fields up to 12 T under hydrostatic pressures up to 1.1 GPa. Values of the Hall concentration, the Hall mobility and the band parameters have been determined and analyzed. The anomalous magnetic field dependence of the electron effective mass is found to be much weaker than in samples with x + y = 0.3 investigated previously. This agrees with the model of the effective-mass anomaly in (Cd<sub>1-x-y</sub>Zn<sub>x</sub>Mn<sub>y</sub>)<sub>3</sub>As<sub>2</sub>&nbsp;proposed recently.</p></cfAbstr>
<cfResPubl_Class>
<cfClassId>eda2d9e9-34c5-11e1-b86c-0800200c9a66</cfClassId>
<cfClassSchemeId>759af938-34ae-11e1-b86c-0800200c9a66</cfClassSchemeId>
<cfStartDate>1999-01-01T24:00:00</cfStartDate>
</cfResPubl_Class>
<cfResPubl_Class>
<cfClassId>e601872f-4b7e-4d88-929f-7df027b226c9</cfClassId>
<cfClassSchemeId>40e90e2f-446d-460a-98e5-5dce57550c48</cfClassSchemeId>
<cfStartDate>1999-01-01T24:00:00</cfStartDate>
</cfResPubl_Class>
<cfPers_ResPubl>
<cfPersId>ibn-person-15602</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>1999-01-01T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfPers_ResPubl>
<cfPersId>ibn-person-1119</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>1999-01-01T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfPers_ResPubl>
<cfPersId>ibn-person-17298</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>1999-01-01T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfPers_ResPubl>
<cfPersId>ibn-person-24075</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>1999-01-01T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfPers_ResPubl>
<cfPersId>ibn-person-15605</cfPersId>
<cfClassId>49815870-1cfe-11e1-8bc2-0800200c9a66</cfClassId>
<cfClassSchemeId>b7135ad0-1d00-11e1-8bc2-0800200c9a66</cfClassSchemeId>
<cfStartDate>1999-01-01T24:00:00</cfStartDate>
</cfPers_ResPubl>
<cfFedId>
<cfFedIdId>ibn-doi-187456</cfFedIdId>
<cfFedId>10.1002/(SICI)1521-3951(199901)211:1<559::AID-PSSB559>3.0.CO;2-4</cfFedId>
<cfStartDate>1999-01-01T24:00:00</cfStartDate>
<cfFedId_Class>
<cfClassId>31d222b4-11e0-434b-b5ae-088119c51189</cfClassId>
<cfClassSchemeId>bccb3266-689d-4740-a039-c96594b4d916</cfClassSchemeId>
</cfFedId_Class>
<cfFedId_Srv>
<cfSrvId>5123451</cfSrvId>
<cfClassId>eda2b2e2-34c5-11e1-b86c-0800200c9a66</cfClassId>
<cfClassSchemeId>5a270628-f593-4ff4-a44a-95660c76e182</cfClassSchemeId>
</cfFedId_Srv>
</cfFedId>
</cfResPubl>
<cfPers>
<cfPersId>ibn-Pers-15602</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-15602-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>1999-01-01T24:00:00</cfStartDate>
<cfFamilyNames>Лайхо</cfFamilyNames>
<cfFirstNames>Р</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfPers>
<cfPersId>ibn-Pers-1119</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-1119-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>1999-01-01T24:00:00</cfStartDate>
<cfFamilyNames>Lisunov</cfFamilyNames>
<cfFirstNames>Konstantin</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfPers>
<cfPersId>ibn-Pers-17298</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-17298-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>1999-01-01T24:00:00</cfStartDate>
<cfFamilyNames>Шубников</cfFamilyNames>
<cfFirstNames>М</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfPers>
<cfPersId>ibn-Pers-24075</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-24075-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>1999-01-01T24:00:00</cfStartDate>
<cfFamilyNames>Stamov</cfFamilyNames>
<cfFirstNames>Vladimir</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfPers>
<cfPersId>ibn-Pers-15605</cfPersId>
<cfPersName_Pers>
<cfPersNameId>ibn-PersName-15605-3</cfPersNameId>
<cfClassId>55f90543-d631-42eb-8d47-d8d9266cbb26</cfClassId>
<cfClassSchemeId>7375609d-cfa6-45ce-a803-75de69abe21f</cfClassSchemeId>
<cfStartDate>1999-01-01T24:00:00</cfStartDate>
<cfFamilyNames>Zakhvalinskii</cfFamilyNames>
<cfFirstNames>Vasilii</cfFirstNames>
</cfPersName_Pers>
</cfPers>
<cfSrv>
<cfSrvId>5123451</cfSrvId>
<cfName cfLangCode='en' cfTrans='o'>CrossRef DOI prefix service</cfName>
<cfDescr cfLangCode='en' cfTrans='o'>The service of issuing DOI prefixes to publishers</cfDescr>
<cfKeyw cfLangCode='en' cfTrans='o'>persistent identifier; Digital Object Identifier</cfKeyw>
</cfSrv>
</CERIF>