P. Helm scite author profile

P. Helm

2Publications

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Humboldt-Universität zu Berlin

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Oscillation Phenomena on the Magnetoresistance of the Organic Superconductor K‐(BEDT‐TTF)₂I₃

Helm

Kraak

Schweitzer

et al. 1995

Physica Status Solidi (b)

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High-field magnetotransport properties of single crystal samples of the quasi-two-dimensional organic compound K-(BEDT-TTF),I, are investigated at low temperatures in magnetic fields up to 12 T. Pronounced quantum oscillations of the magnetoresistance (Shubnikov-de Haas effect) are observed in magnetic fields above 8 T. In the magnetic field orientation perpendicular to the high conducting b-c plane four different SdH oscillations with fundamental fields 570, 2710, 3280, and 3850T are detected. The corresponding extremal areas of the cross sections of the Fermi surface are found to be in good agreement with theoretical band structure calculations. For the first time "giant" angular oscillations of the magnetoresistivity are observed in r-(BEDT-TTF),I,. These oscillations are periodic in tan 0 in agreement with the quasi-classical explanation by Yamaji. From the experimental data the electronic parameter n/ak, N 0.58 can be estimated.Es werden die Magnetotransport-Eigenschaften von Einkristallen der quasi-zweidimensionalen organischen Verbindung r-(BEDT-TTF),I, bei tiefen Temperaturen in Magnetfeldern bis 12 T untersucht. In Magnetfeldern oberhalb 8 T werden ausgepriigte Quantenoszillationen des Magnetowiderstandes (Shubnikov-de Haas-EKekt) beobachtet. In der Magnetfeldorientierung senkrecht zur hochleitenden b-c-Ebene konnen vier unterschiedliche SdH-Oszillationen mit den Fundamentalfeldern 570, 27 10, 3280 und 3850 T nachgewiesen werden. Die zugehorigen Extremal-Querschnitte der Fermi-Oberflache stimmen mit theoretischen Bandstrukturberechnungen gut uberein. Erstmalig werden ,,gigantkche" Oszillationen in den Winkelabhangigkeiten des Magnetowiderstandes an K-(BEDT-TTF),I, beobachtet. Diese Oszillationen sind in Ubereinstimmung mit der halbklassischen Erklarung von Yamaji periodisch in tan 0. Aus den experimentellen Ergebnissen kann der elektronische Parameter n/ak, % 0,58 abgeschatzt werden.found to be superconductors with a quite high critical temperature T, (up t o 12.8 K in K-(ET)~CU[N(CN),]CI at 0.3 x 10' Pa [l]).

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Effect of high hydrostatic pressure on the magnetoresistance quantum oscillations of the quasi‐two‐dimensional organic superconductor x‐(BEDT‐TTF)₂i₃

Helm

Kraak

Schweitzer

1996

Physica Status Solidi (b)

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High-field niagnetotransport investigations of single crystals of the quasi-two-dimensional organic compound x-(BEDT-TTF)gI:( under hydrostatic pressure up to 9 x lo8 Pa are presented. Pronounced Shubnikov-de Haas oscillations are observed in magnetic fields up to 12 T over the whole pressure range. These quantum oscillations are affected remarkably by hydrostatic pressure. All of the four funtlaniental fields detected rise with increasing pressure corresponding to an enhancement of the extremal areas of the Fermi surface in x-(BEDT-TTF)213. The experimentally determined cyclotron effective masses of the charge carriers decrcase with increasing pressure. The FFT amplitudes of the Shubnikov-dc Haas oscillations show a very complex pressure dependence reflecting a more complicated structure of the electron system than the relatively simple topology of the calculated Fcrmi surface involves. The pressure-induced changes of the Fermi surface are discussed in the framework of an effective dinier model and conipared with equivalent investigations on the isostriictiiral cornpourid x-(ET)zCu(NCS)z.Es werden Magnetotransport-Uritersuchungen an Einkristallen der quasi-zweidimensionalen organischen Verbindung x-(BEDT-TTF)zI:$ unter hydrostatischem Druck bis 9 x 10' P a vorgestellt. Im gesamten Druckbereich sind in Magnetfeldern bis 12 T ausgepragte Shubnikov-de Haas-Oszillationen z i i beobachten. Diese Quantenoszillationen anderri sich deutlich unter dem EinfluB von hohern hydrostatischen Druck. Alle vier nachgewiesenen Fundamentalfelder nehmen bei Druckerholiung zu, verbunden mit ciner Vergroflerung der Extremalquerschnitte der Fernii-Oberflache in X-(BEDT-TTF)z13, Die experirneritell bestimmten effektiven Zyklotronrnassen der Ladungstrager sinken unter Druckzunahme. Die FFT-Amplituden der Shubnikov-de Haas-Oszillation zeigen eine sehr komplexe Druckabhangigkeit, die auf eine kompliziertere Elektronenstruktur, als sich aus der relativ einfachen Topologie der berechneten Fermi-Oberflache ergibt, schlieJ3en 1aBt. Die druckinduzierten Veranderungen der Fermi-Oberflache werden im Rahmen eines effektiven Dimer-Modells diskutiert mid rnit aquivalentcn Untersuchungen an der isostrukturellen Verbindung x -( E T )~C~( N C S )~ verglichen.

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P. Helm

Oscillation Phenomena on the Magnetoresistance of the Organic Superconductor K‐(BEDT‐TTF)₂I₃

Effect of high hydrostatic pressure on the magnetoresistance quantum oscillations of the quasi‐two‐dimensional organic superconductor x‐(BEDT‐TTF)₂i₃

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P. Helm

Oscillation Phenomena on the Magnetoresistance of the Organic Superconductor K‐(BEDT‐TTF)2I3

Effect of high hydrostatic pressure on the magnetoresistance quantum oscillations of the quasi‐two‐dimensional organic superconductor x‐(BEDT‐TTF)2i3

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Oscillation Phenomena on the Magnetoresistance of the Organic Superconductor K‐(BEDT‐TTF)₂I₃

Effect of high hydrostatic pressure on the magnetoresistance quantum oscillations of the quasi‐two‐dimensional organic superconductor x‐(BEDT‐TTF)₂i₃