Your search keyword '"Foxon, C. T."' showing total 880 results

851. Magnetoresistance and Hall effect in the ferromagnetic semiconductor Ga[sub 1-x]Mn[sub x]As.

Author

Edmonds, K. W., Campion, R. P., Wang, K. -Y., Neumann, A. C., Gallagher, B. L., Foxon, C. T., and Main, P. C.

Subjects

*SURFACES (Technology), *MAGNETIC fields, *HALL effect, *THIN films

Abstract

The resistivity, temperature, and magnetic field dependence of the anomalous Hall effect in a series of metallic Ga[SUB1-x]Mn[SUBx]As thin films with x=0.015 to 0.08 is presented. A quadratic dependence of the anomalous Hall resistance on the resistivity is observed, with a magnitude which is in agreement with Berry phase theories of the anomalous Hall effect in dilute magnetic semiconductors. [ABSTRACT FROM AUTHOR]

Published

2003

852. Resonant polaron effects on impurity metastable states in n-GaAs.

Author

van der Sluijs, A. J., Geerinck, K. K., Klaassen, T. O., Wenckebach, W. Th., and Foxon, C. T.

Subjects

*POLARONS, *ELECTRONS

Abstract

Presents a study which investigated the resonant polaron effects on donor metastable states in n-gallium arsenide using far infrared Fourier transform magneto-spectroscopy. Information on the interaction of electrons with optical phonons; Computational approach; Results.

Published

1994

853. Molecular beam epitaxy of free-standing bulk wurtzite AlxGa1-xN layers using a highly efficient RF plasma source.

Author

Novikov, S. V., Staddon, C. R., Sahonta, S.-L., Oliver, R. A., Humphreys, C. J., and Foxon, C. T.

Subjects

*ALUMINUM nitride, *ALUMINUM gallium nitride, *WURTZITE, *MOLECULAR beam epitaxy, *ULTRAVIOLET radiation

Abstract

Recent developments with group III nitrides suggest AlxGa1-xN based LEDs can be new alternative commercially viable deep ultra-violet light sources. Due to a significant difference in the lattice parameters of GaN and AlN, AlxGa1-xN substrates would be preferable to either GaN or AlN for ultraviolet device applications. We have studied the growth of free-standing wurtzite AlxGa1-xN bulk crystals by plasma-assisted molecular beam epitaxy (PA-MBE) using a novel RF plasma source. Thick wurtz-ite AlxGa1-xN films were grown by PA-MBE on 2-inch GaAs (111)B substrates and were removed from the GaAs substrate after growth to provide free standing AlxGa1-xN samples. Growth rates of AlxGa1-xN up to 3 µm/h have been demonstrated. Our novel high efficiency RF plasma source allowed us to achieve free-standing bulk AlxGa1-xN layers in a single day's growth, which makes our MBE bulk growth technique commercially viable. [ABSTRACT FROM AUTHOR]

Published

2016

854. Electronic band structure of highly mismatched GaN1-xSbx alloys in a broad composition range.

Author

Segercrantz, N., Yu, K. M., Ting, M., Sarney, W. L., Svensson, S. P., Novikov, S. V., Foxon, C. T., and Walukiewicz, W.

Subjects

*ELECTRONIC band structure, *ANTIMONY alloys, *GALLIUM nitride, *OPTICAL properties, *THIN films, *TEMPERATURE effect, *LIGHT absorption

Abstract

In this letter, we study the optical properties of GaN1-xSbx thin films. Films with an Sb fraction up to 42% were synthesized by alternating GaN-GaSb layers at a constant temperature of 325 °C. The measured optical absorption data of the films are interpreted using a modified band anticrossing model that is applicable to highly mismatched alloys such as GaN1-xSbx in the entire composition range. The presented model allows us to more accurately determine the band gap as well as the band edges over the entire composition range thereby providing means for determining the composition for, e.g., efficient spontaneous photoelectrochemical cell applications. [ABSTRACT FROM AUTHOR]

Published

2015

855. Anharmonic phonon decay in cubic GaN.

Author

Cuscó, R., Domènech-Amador, N., Novikov, S., Foxon, C. T., and Artús, L.

Subjects

*RAMAN scattering, *PHONONS, *GALLIUM nitride films, *MOLECULAR beam epitaxy, *DENSITY functional theory

Abstract

We present a Raman-scattering study of optical phonons in zinc-blende (cubic) GaN for temperatures ranging from 80 to 750 K. The experiments were performed on high-quality, cubic GaN films grown by molecular-beam epitaxy on GaAs (001) substrates. The observed temperature dependence of the optical phonon frequencies and linewidths is analyzed in the framework of anharmonic decay theory, and possible decay channels are discussed in the light of density-functional-theory calculations. The longitudinal-optical (LO) mode relaxation is found to occur via asymmetric decay into acoustic phonons, with an appreciable contribution of higher-order processes. The transverse-optical mode linewidth shows a weak temperature dependence and its frequency downshift is primarily determined by the lattice thermal expansion. The LO phonon lifetime is derived from the observed Raman linewidth and an excellent agreement with previous theoretical predictions is found. [ABSTRACT FROM AUTHOR]

Published

2015

856. High Curie temperatures at low compensation in the ferromagnetic semiconductor (Ga,Mn)As.

Author

Wang, M., Edmonds, K. W., Gallagher, B. L., Rushforth, A. W., Makarovsky, O., Patanè, A., Campion, R. P., Foxon, C. T., Novak, V., and Jungwirth, T.

Subjects

*CURIE temperature, *FERROMAGNETIC materials, *SEMICONDUCTOR research, *CARRIER density, *CHANNELING (Physics)

Abstract

We investigate the relationship between the Curie temperature TC and the carrier density p in the ferromagnetic semiconductor (Ga,Mn)As. Carrier densities are extracted from analysis of the Hall resistance at low temperatures and high magnetic fields. Results are found to be consistent with ion channeling measurements when performed on the same samples. We find that both TC and the electrical conductivity increase monotonically with increasing p, and take their largest values when p is comparable to the concentration of substitutional Mn acceptors. This is inconsistent with models in which the Fermi level is located within a narrow isolated impurity band. [ABSTRACT FROM AUTHOR]

Published

2013

857. Magnetic and structural properties of (Ga,Mn)As/(Al,Ga,Mn)As bilayer films.

Author

Wang, M., Rushforth, A. W., Hindmarch, A. T., Campion, R. P., Edmonds, K. W., Staddon, C. R., Foxon, C. T., and Gallagher, B. L.

Subjects

*MAGNETIC fields, *THIN films, *DIFFUSION, *FIELD theory (Physics), *SOLID state electronics

Abstract

We investigate the dependence of the magnetic and structural properties of (Ga,Mn)As/(Al,Ga,Mn)As bilayer films on the stoichiometry of the interface region. For films incorporating a thin As-deficient layer at the interface, the out-diffusion of interstitial Mn from the bottom layer is strongly suppressed, resulting in a large difference in TC and magnetic anisotropy between the two layers. X-ray reflectivity measurements show that the suppression of interstitial diffusion is correlated with an increased interface roughness. When the As-deficient interface layer is thicker than 2.5 nm, the in-plane uniaxial magnetic easy axis rotates from the [1-10] to the [110] crystalline axis. [ABSTRACT FROM AUTHOR]

Published

2013

858. Microstructure of Mg doped GaNAs alloys.

Author

Liliental-Weber, Z., Reis, R. dos, Novikov, S. V., Yu, K. M., Levander, A. X., Dubon, O. D., Wu, J., Walukiewicz, W., and Foxon, C. T.

Abstract

Transmission Electron Microscopy of Mg doped GaN1-xAsx samples, grown by MBE at low temperatures, show substantial structural changes for samples that are semi-insulating and those with high or low conductivity. The conductive samples show p-type conductivity as evidence from the positive thermopower values. All the Mg doped samples show phase segregation: cubic GaAs and GaN grains (a mixture of cubic and some hexagonal) phases within an amorphous matrix. The best conductive samples show cubic GaAs grains with high density of stacking faults embedded into an amorphous matrix. The samples that are less conductive have lower ratio of the amorphous to the crystalline phase of the samples and much lower density of stacking faults. Higher Mg concentration is expected in the amorphous parts of the samples The semi-insulating samples that have either low Mg concentration or low As show grains of GaAs and GaN attached to each other with no evidence of the amorphous phase between them. There are no SFs in these grains. It is possible that the presence of the GaN between the GaAs grains lead to semi-insulating material properties since p-type doping of GaN is more difficult. (© 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [ABSTRACT FROM AUTHOR]

Published

2013

859. Magnetic Linear Dichroism in the Angular Dependence of Core-Level Photoemission from (Ga,Mn)As Using Hard X Rays.

Author

Edmonds, K. W., Van der Laan, G., Farley, N. R. S., Campion, R. P., Gallagher, B. L., Foxon, C. T., Cowie, B. C. C., Warren, S., and Johal, T. K.

Subjects

*FERROMAGNETIC resonance, *DICHROISM, *PHOTOEMISSION, *PLASMONS (Physics), *CONDUCTION electrons, *COULOMB potential

Abstract

We report a study of the electronic properties of the ferromagnetic semiconductor (Ga,Mn)As using magnetic linear dichroism in the angular dependence of Mn 2p photoemission under hard x-ray excitation. Bulk plasmon loss satellites demonstrate that the probed Mn ions are incorporated deep within the GaAs lattice, while the observed large dichroism indicates that the spectra originate from ferromagnetic substitutional Mn. Simulations of the spectra using an Anderson impurity model show that the ferromagnetic Mn 3d electrons of substitutional Mn in (Ga,Mn)As are intermediate between localized and delocalized. [ABSTRACT FROM AUTHOR]

Published

2011

860. Enhanced Curie temperature and nonvolatile switching of ferromagnetism in ultrathin (Ga,Mn)As channels.

Author

Stolichnov, I., Riester, S. W. E., Mikheev, E., Setter, N., Rushforth, A. W., Edmonds, K. W., Campion, R. P., Foxon, C. T., Gallagher, B. L., Jungwirth, T., and Trodahl, H. J.

Subjects

*CURIE temperature, *FERROMAGNETISM, *GALLIUM arsenide, *FERROELECTRIC crystals, *POLARIZATION (Nuclear physics)

Abstract

The integration of ferroelectric polymer gates on a Mn-doped GaAs magnetic channel provides a promising route for the persistent field-effect control of magnetic properties in high-quality diluted magnetic semiconductors (DMSs) that are otherwise incompatible with traditional oxide ferroelectrics. That control demands the thinnest possible DMS layers, for which to date the Curie temperature (Tc) is severely depressed. Here we show that reducing the channel thickness from 7 to 3-4 nm by etching, followed by a brief 135°C anneal, does not degrade the Tc (∼70 K) of the 7-nm film. The channel thinning results in a dramatic threefold increase of the Tc shift controlled by the ferroelectric polarization reversal. Furthermore, we obtain the same exponent (∂ in Tc/∂ In R) ≡ γ -0.3 for all channels with different thicknesses, regardless of the technique used for Tc determination. These results suggest that the ferromagnetic coupling in an ultrathin 3-nni channel is far from the two-dimensional limit and shows a rather bulklike behavior, similar to well-established 7-nm films. [ABSTRACT FROM AUTHOR]

Published

2011

861. Demonstration of molecular beam epitaxy and a semiconducting band structure for I-Mn-V compounds.

Author

Jungwirth, T., Novák, V., Martí, X., Cukr, M., Máca, F., Shick, A. B., Mašek, J., Horodyská, P., Němec, P., Holý, V., Zemek, J., Kužel, P., Němec, I., Gallagher, B. L., Campion, R. P., Foxon, C. T., and Wunderlich, J.

Subjects

*MOLECULAR beam epitaxy, *MOLECULAR beams, *ANTIFERROMAGNETISM, *SPINTRONICS, *ANISOTROPY

Abstract

Our ab initio theory calculations predict a semiconducting band structure of I-Mn-V compounds. We demonstrate on LiMnAs that high-quality materials with group-I alkali metals in the crystal structure can be grown by molecular beam epitaxy. Optical measurements on the LiMnAs epilayers are consistent with the theoretical electronic structure. Our calculations also reproduce earlier reports of high antiferromagnetic ordering temperature and predict large, spin-orbit-coupling-induced magnetic anisotropy effects. We propose a strategy for employing antiferromagnetic semiconductors in high-temperature semiconductor spintronics. [ABSTRACT FROM AUTHOR]

Published

2011

862. Non-volatile ferroelectric control of ferromagnetism in (Ga,Mn)As.

Author

Stolichnov, I., Riester, S. W. E., Trodahl, H. J., Setter, N., Rushforth, A. W., Edmonds, K. W., Campion, R. P., Foxon, C. T., Gallagher, B. L., and Jungwirth, T.

Subjects

*FERROMAGNETISM, *SEMICONDUCTORS, *FERROELECTRICITY, *CRYSTALS, *ELECTRIC conductivity

Abstract

Multiferroic structures that provide coupled ferroelectric and ferromagnetic responses are of significant interest as they may be used in novel memory devices and spintronic logic elements. One approach towards this goal is the use of composites that couple ferromagnetic and ferroelectric layers through magnetostrictive and piezoelectric strain transmitted across the interfaces. However, mechanical clamping of the films to the substrate limits their response. Structures where the magnetic response is modulated directly by the electric field of the poled ferroelectric would eliminate this constraint and provide a qualitatively higher level of integration, combining the emerging field of multiferroics with conventional semiconductor microelectronics. Here, we report the realization of such a device using (Ga,Mn)As, which is an archetypical diluted magnetic semiconductor with well-understood carrier-mediated ferromagnetism, and a polymer ferroelectric gate. Polarization reversal of the gate by a single voltage pulse results in a persistent modulation of the Curie temperature of the ferromagnetic semiconductor. The non-volatile gating of (Ga,Mn)As has been made possible by applying a low-temperature copolymer deposition technique that is distinct from pre-existing technologies for ferroelectric gates on magnetic oxides. This accomplishment opens a way to nanometre-scale modulation of magnetic semiconductor properties with rewritable ferroelectric domain patterns, operating at modest voltages and subnanosecond times. [ABSTRACT FROM AUTHOR]

Published

2008

863. Study of photoluminescence from self-formed GaAs nanocrystallites in As-doped GaN grown by molecular beam epitaxy.

Author

Andrianov, A V, Novikov, S V, Li, T, Zhuravlev, I S, Harrison, I, Larkins, E C, and Foxon, C T

Abstract

We report on the results of the investigation of the photoluminescence (PL) from GaAs nanocrystallites embedded in a GaN host crystal and formed during the growth of GaN(As) by molecular beam epitaxy. The low-temperature PL spectra reveal two emission bands with maxima at 1.20 and 1.43 eV. The emission intensities of both PL bands show a characteristic 2/3 power-law dependence upon the optical excitation intensity, suggesting a strong contribution of Auger recombination in the total recombination rate of non-equilibrium carriers inside the GaAs nanocrystallites. The integral PL intensity demonstrates a sharp maximum in the growth temperature dependence at ∼780 °C. This can be explained by the competition of several temperature-dependent processes, which influence the formation of the GaAs nanocrystallites. [ABSTRACT FROM AUTHOR]

Published

2003

864. Characterization of nitride thin films by electron backscatter diffraction.

Author

Trager-Cowan, C, Sweeney, F, Hastie, J, Manson-Smith, S. K, Cowan, D. A, McColl, D, Mohammed, A, O’Donnell, K. P, Zubia, D, Hersee, S. D, Foxon, C. T, Harrison, I, and Novikov, S. V

Subjects

*THIN films, *BACKSCATTERING, *MORPHOLOGY

Abstract

Summary Thin films incorporating GaN, InGaN and AlGaN are presently arousing considerable excitement because of their suitability for UV and visible light-emitting diodes and laser diodes. However, because of the lattice mismatch between presently used substrates and epitaxial nitride thin films, the films are of variable quality. In this paper we describe our preliminary studies of nitride thin films using electron backscattered diffraction (EBSD). We show that the EBSD technique may be used to reveal the relative orientation of an epitaxial thin film with respect to its substrate (a 90° rotation between a GaN epitaxial thin film and its sapphire substrate is observed) and to determine its tilt (a GaN thin film was found to be tilted by 13 ± 1° towards [1010]GaN ), where the tilt is due to the inclination of the sapphire substrate (cut off-axis by 10° from (0001)sapphire towards (1010)sapphire ). We compare EBSD patterns obtained from As-doped GaN films grown by plasma-assisted molecular beam epitaxy (PA-MBE) with low and high As4 flux, respectively. Higher As4 flux results in sharper, better defined patterns, this observation is consistent with the improved surface morphology observed in AFM studies. Finally, we show that more detail can be discerned in EBSD patterns from GaN thin films when samples are cooled. [ABSTRACT FROM AUTHOR]

Published

2002

865. Study of GaN thin layers subjected to high-temperature rapid thermal annealing.

Author

Katsavets, N.I., Laws, G. M., Harrison, I., Larkins, E. C., Benson, T. M., Cheng, T. S., and Foxon, C. T.

Subjects

*GALLIUM nitride, *THIN films, *MOLECULAR beam epitaxy

Abstract

A detailed study of the effect of rapid thermal annealing in a N[sub 2] or Ar atmosphere on the properties of thin GaN layers grown by molecular-beam epitaxy on sapphire substrates was performed. After rapid thermal annealing, an enhancement of the crystal quality of such films was observed. Low-temperature photoluminescence measurements revealed a substantial increase in impurity recombination near the fundamental absorption edge after a rapid high-temperature anneal in a nitrogen atmosphere. A significant decrease in the impurity photoluminescence of the GaN films with protective SiO[sub 2] coatings was observed following the anneals. [ABSTRACT FROM AUTHOR]

Published

1998

866. Giant growth of quantum oscillations in an inhomogeneous 2D electron system.

Author

Dolgopolov, V. T., Shashkin, A. A., Kravchenko, G. V., Mukhametzhanov, I. M., Wendel, M., Kotthaus, J. P., Molenkamp, L. W., and Foxon, C. T.

Subjects

*OSCILLATIONS, *ELECTRONS, *MAGNETORESISTANCE

Abstract

It is detected experimentally for the first time that the connection of 2D electron systems with different electrochemical potentials results in long-range (>=50 μm) electron density disturbances. When a gated region of a Corbino sample is strongly depleted, the amplitude of the magnetoresistance oscillations caused by high density ungated regions is found to increase in direct proportion to the sample resistance, which is dominated by low-density regions with small conductivity. Experiments on samples with an artificial potential profile (antidots and etched rings) below the gate show that the observed effects are not due to contact effects. © 1996 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

1996

867. Composition and strain relaxation of In x Ga 1-x N graded core-shell nanorods.

Author

Soundararajah QY, Webster RF, Griffiths IJ, Novikov SV, Foxon CT, and Cherns D

Abstract

Two In x Ga 1-x N nanorod samples with graded In compositions of x = 0.5-0 (Ga-rich) and x = 0.5-1 (In-rich) grown by molecular beam epitaxy were studied using transmission electron microscopy. The nanorods had a wurtzite crystal structure with growth along [Formula: see text] and core-shell structures with an In-rich core and Ga-rich shell. Energy-dispersive x-ray analysis confirmed grading over the entire compositional range and showed that the axial growth rate was primarily determined by the In flux, and the radial growth rate by the Ga flux. There was no evidence of misfit dislocations due to grading, but the strain due to the lattice mismatch between the In-rich core and Ga-rich shell was relaxed by edge dislocations at the core-shell interface with Burgers vectors [Formula: see text] and [Formula: see text].

Published

2018

868. An atomic carbon source for high temperature molecular beam epitaxy of graphene.

Author

Albar JD, Summerfield A, Cheng TS, Davies A, Smith EF, Khlobystov AN, Mellor CJ, Taniguchi T, Watanabe K, Foxon CT, Eaves L, Beton PH, and Novikov SV

Abstract

We report the use of a novel atomic carbon source for the molecular beam epitaxy (MBE) of graphene layers on hBN flakes and on sapphire wafers at substrate growth temperatures of ~1400 °C. The source produces a flux of predominantly atomic carbon, which diffuses through the walls of a Joule-heated tantalum tube filled with graphite powder. We demonstrate deposition of carbon on sapphire with carbon deposition rates up to 12 nm/h. Atomic force microscopy measurements reveal the formation of hexagonal moiré patterns when graphene monolayers are grown on hBN flakes. The Raman spectra of the graphene layers grown on hBN and sapphire with the sublimation carbon source and the atomic carbon source are similar, whilst the nature of the carbon aggregates is different - graphitic with the sublimation carbon source and amorphous with the atomic carbon source. At MBE growth temperatures we observe etching of the sapphire wafer surface by the flux from the atomic carbon source, which we have not observed in the MBE growth of graphene with the sublimation carbon source.

Published

2017

869. Intermixing studies in GaN 1-x Sb x highly mismatched alloys.

Author

Sarney WL, Svensson SP, Ting M, Segercrantz N, Walukiewicz W, Yu KM, Martin RW, Novikov SV, and Foxon CT

Abstract

GaN 1-x Sb x with x∼5%-7% is a highly mismatched alloy predicted to have favorable properties for application as an electrode in a photoelectrochemical cell for solar water splitting. In this study, we grew GaN 1-x Sb x under conditions intended to induce phase segregation. Prior experiments with the similar alloy GaN 1-x As x , the tendency of Sb to surfact, and the low growth temperatures needed to incorporate Sb all suggested that GaN 1-x Sb x alloys would likely exhibit phase segregation. We found that, except for very high Sb compositions, this was not the case and that instead interdiffusion dominated. Characteristics measured by optical absorption were similar to intentionally grown bulk alloys for the same composition. Furthermore, the alloys produced by this method maintained crystallinity for very high Sb compositions and allowed higher overall Sb compositions. This method may allow higher temperature growth while still achieving needed Sb compositions for solar water splitting applications.

Published

2017

870. Tetragonal phase of epitaxial room-temperature antiferromagnet CuMnAs.

Author

Wadley P, Novák V, Campion RP, Rinaldi C, Martí X, Reichlová H, Zelezný J, Gazquez J, Roldan MA, Varela M, Khalyavin D, Langridge S, Kriegner D, Máca F, Mašek J, Bertacco R, Holý V, Rushforth AW, Edmonds KW, Gallagher BL, Foxon CT, Wunderlich J, and Jungwirth T

Abstract

Recent studies have demonstrated the potential of antiferromagnets as the active component in spintronic devices. This is in contrast to their current passive role as pinning layers in hard disk read heads and magnetic memories. Here we report the epitaxial growth of a new high-temperature antiferromagnetic material, tetragonal CuMnAs, which exhibits excellent crystal quality, chemical order and compatibility with existing semiconductor technologies. We demonstrate its growth on the III-V semiconductors GaAs and GaP, and show that the structure is also lattice matched to Si. Neutron diffraction shows collinear antiferromagnetic order with a high Néel temperature. Combined with our demonstration of room-temperature-exchange coupling in a CuMnAs/Fe bilayer, we conclude that tetragonal CuMnAs films are suitable candidate materials for antiferromagnetic spintronics.

Published

2013

871. Ferroelectric polymer gates for non-volatile field effect control of ferromagnetism in (Ga, Mn)As layers.

Author

Stolichnov I, Riester SW, Mikheev E, Setter N, Rushforth AW, Edmonds KW, Campion RP, Foxon CT, Gallagher BL, Jungwirth T, and Trodahl HJ

Abstract

(Ga, Mn)As and other diluted magnetic semiconductors (DMS) attract a great deal of attention for potential spintronic applications because of the possibility of controlling the magnetic properties via electrical gating. Integration of a ferroelectric gate on the DMS channel adds to the system a non-volatile memory functionality and permits nanopatterning via the polarization domain engineering. This topical review is focused on the multiferroic system, where the ferromagnetism in the (Ga, Mn)As DMS channel is controlled by the non-volatile field effect of the spontaneous polarization. Use of ferroelectric polymer gates in such heterostructures offers a viable alternative to the traditional oxide ferroelectrics generally incompatible with DMS. Here we review the proof-of-concept experiments demonstrating the ferroelectric control of ferromagnetism, analyze the performance issues of the ferroelectric gates and discuss prospects for further development of the ferroelectric/DMS heterostructures toward the multiferroic field effect transistor.

Published

2011

872. Microscopic analysis of the valence band and impurity band theories of (Ga,Mn)As.

Author

Mašek J, Máca F, Kudrnovský J, Makarovsky O, Eaves L, Campion RP, Edmonds KW, Rushforth AW, Foxon CT, Gallagher BL, Novák V, Sinova J, and Jungwirth T

Abstract

We analyze microscopically the valence and impurity band models of ferromagnetic (Ga,Mn)As. We find that the tight-binding Anderson approach with conventional parametrization and the full potential local-density approximation+U calculations give a very similar band structure whose microscopic spectral character is consistent with the physical premise of the k·p kinetic-exchange model. On the other hand, the various models with a band structure comprising an impurity band detached from the valence band assume mutually incompatible microscopic spectral character. By adapting the tight-binding Anderson calculations individually to each of the impurity band pictures in the single Mn impurity limit and then by exploring the entire doping range, we find that a detached impurity band does not persist in any of these models in ferromagnetic (Ga,Mn)As.

Published

2010

873. Fock-Darwin-like quantum dot states formed by charged Mn interstitial ions.

Author

Makarovsky O, Thomas O, Balanov AG, Eaves L, Patanè A, Campion RP, Foxon CT, Vdovin EE, Maude DK, Kiesslich G, and Airey RJ

Abstract

We report a method of creating electrostatically induced quantum dots by thermal diffusion of interstitial Mn ions out of a p-type (GaMn)As layer into the vicinity of a GaAs quantum well. This approach creates deep, approximately circular, and strongly confined dotlike potential minima in a large (200 microm) mesa diode structure without need for advanced lithography or electrostatic gating. Magnetotunneling spectroscopy of an individual dot reveals the symmetry of its electronic eigenfunctions and a rich energy level spectrum of Fock-Darwin-like states with an orbital angular momentum component |lz| from 0 to 11.

Published

2008

874. Anisotropic magnetoresistance components in (Ga,Mn)As.

Author

Rushforth AW, Výborný K, King CS, Edmonds KW, Campion RP, Foxon CT, Wunderlich J, Irvine AC, Vasek P, Novák V, Olejník K, Sinova J, Jungwirth T, and Gallagher BL

Abstract

We explore the basic physical origins of the noncrystalline and crystalline components of the anisotropic magnetoresistance (AMR) in (Ga,Mn)As. The sign of the noncrystalline AMR is found to be determined by the form of spin-orbit coupling in the host band and by the relative strengths of the nonmagnetic and magnetic contributions to the Mn impurity potential. We develop experimental methods yielding directly the noncrystalline and crystalline AMR components which are then analyzed independently. We report the observation of an AMR dominated by a large uniaxial crystalline component and show that AMR can be modified by local strain relaxation. Generic implications of our findings for other dilute moment systems are discussed.

Published

2007

875. Coulomb blockade anisotropic magnetoresistance effect in a (Ga,Mn)As single-electron transistor.

Author

Wunderlich J, Jungwirth T, Kaestner B, Irvine AC, Shick AB, Stone N, Wang KY, Rana U, Giddings AD, Foxon CT, Campion RP, Williams DA, and Gallagher BL

Abstract

We observe low-field hysteretic magnetoresistance in a (Ga,Mn)As single-electron transistor which can exceed 3 orders of magnitude. The sign and size of the magnetoresistance signal are controlled by the gate voltage. Experimental data are interpreted in terms of electrochemical shifts associated with magnetization rotations. This Coulomb blockade anisotropic magnetoresistance is distinct from previously observed anisotropic magnetoresistance effects as it occurs when the anisotropy in a band structure derived parameter is comparable to an independent scale, the single-electron charging energy. Effective kinetic-exchange model calculations in (Ga,Mn)As show chemical potential anisotropies consistent with experiment and ab initio calculations in transition metal systems suggest that this generic effect persists to high temperatures in metal ferromagnets with strong spin-orbit coupling.

Published

2006

876. Ultrafast band-gap shift induced by a strain pulse in semiconductor heterostructures.

Author

Akimov AV, Scherbakov AV, Yakovlev DR, Foxon CT, and Bayer M

Abstract

The conventional piezospectroscopic effect is extended to picosecond time scales by using ultrashort strain pulses injected into semiconductor heterostructures. The strain pulses with durations of approximately 10 ps are generated in a metal transducer film by intense femtosecond laser pulses. They propagate coherently in the GaAs/(Al,Ga)As heterostructure over a distance of 100 microm and shift the band gaps by several meV as detected optically for quantum well exciton resonances by pump-probe techniques and time-resolved photoluminescence.

Published

2006

877. Angle-dependent x-ray magnetic circular dichroism from (Ga,Mn)As: anisotropy and identification of hybridized states.

Author

Edmonds KW, van der Laan G, Freeman AA, Farley NR, Johal TK, Campion RP, Foxon CT, Gallagher BL, and Arenholz E

Abstract

Remarkably anisotropic Mn L2,3 x-ray magnetic circular dichroism spectra from the ferromagnetic semiconductor (Ga,Mn)As are reported. States with cubic and uniaxial symmetry are distinguished by careful analysis of the angle dependence of the spectra. The multiplet structures with cubic symmetry are qualitatively reproduced by calculations for an atomiclike d5 configuration in tetrahedral environment, and show zero anisotropy in the orbital and spin moments within the experimental uncertainty. However, hybridization with the host valence bands is reflected by the presence of a preedge feature with a uniaxial anisotropy and a marked dependence on the hole density.

Published

2006

878. Spin reorientation transition in single-domain.

Author

Wang KY, Sawicki M, Edmonds KW, Campion RP, Maat S, Foxon CT, Gallagher BL, and Dietl T

Abstract

We demonstrate that the interplay of in-plane biaxial and uniaxial anisotropy fields in results in a spin reorientation transition and an anisotropic ac susceptibility which is fully consistent with a simple single-domain model. The uniaxial and biaxial anisotropy constants vary, respectively, as the square and fourth power of the spontaneous magnetization across the whole temperature range up to . The weakening of the anisotropy at the transition may be of technological importance for applications involving thermally assisted magnetization switching.

Published

2005

879. Large tunneling anisotropic magnetoresistance in (Ga,Mn)As nanoconstrictions.

Author

Giddings AD, Khalid MN, Jungwirth T, Wunderlich J, Yasin S, Campion RP, Edmonds KW, Sinova J, Ito K, Wang KY, Williams D, Gallagher BL, and Foxon CT

Abstract

We report a large tunneling anisotropic magnetoresistance (TAMR) in (Ga,Mn)As lateral nanoconstrictions. Unlike previously reported tunneling magnetoresistance effects in nanocontacts, the TAMR does not require noncollinear magnetization on either side of the constriction. The nature of the effect is established by a direct comparison of its phenomenology with that of normal anisotropic magnetoresistance (AMR) measured in the same lateral geometry. The direct link we establish between the TAMR and AMR indicates that TAMR may be observable in other materials showing room temperature AMR and demonstrates that the physics of nanoconstriction magnetoresistive devices can be much richer than previously thought.

Published

2005

880. Mn interstitial diffusion in (ga,mn)as.

Author

Edmonds KW, Bogusławski P, Wang KY, Campion RP, Novikov SN, Farley NR, Gallagher BL, Foxon CT, Sawicki M, Dietl T, Buongiorno Nardelli M, and Bernholc J

Abstract

We present a combined theoretical and experimental study of the ferromagnetic semiconductor (Ga,Mn)As which explains the remarkably large changes observed on low-temperature annealing. Careful control of the annealing conditions allows us to obtain samples with ferromagnetic transition temperatures up to 159 K. Ab initio calculations, in situ Auger spectroscopy, and resistivity measurements during annealing show that the observed changes are due to out diffusion of Mn interstitials towards the surface, governed by an energy barrier of 0.7-0.8 eV. Electric fields induced by Mn acceptors have a significant effect on the diffusion.

Published

2004