Search

Your search keyword '"Forgan EM"' showing total 50 results
Start Over Author "Forgan EM"
50 results on '"Forgan EM"'

1. Measuring the stability of fundamental constants with a network of clocks

Author

Barontini, G, Blackburn, L, Boyer, V, Butuc-Mayer, F, Calmet, X, Lopez-Urrutia, JRC, Curtis, EA, Darquie, B, Dunningham, J, Fitch, NJ, Forgan, EM, Georgiou, K, Gill, P, Godun, RM, Goldwin, J, Guarrera, V, Harwood, A, Hill, IR, Hendricks, RJ, Jeong, M, Johnson, MYH, Keller, M, Sajith, LPK, Kuipers, F, Margolis, HS, Mayo, C, Newman, P, Parsons, AO, Prokhorov, L, Robertson, BI, Rodewald, J, Safronova, MS, Sauer, BE, Schioppo, M, Sherrill, N, Stadnik, YV, Szymaniec, K, Tarbutt, MR, Thompson, RC, Tofful, A, Tunesi, J, Vecchio, A, Wang, Y, and Worm, S

Subjects
hep-ex, gr-qc, astro-ph.CO, hep-ph, physics.atom-ph
Abstract

The detection of variations of fundamental constants of the Standard Model would provide us with compelling evidence of new physics, and could lift the veil on the nature of dark matter and dark energy. In this work, we discuss how a network of atomic and molecular clocks can be used to look for such variations with unprecedented sensitivity over a wide range of time scales. This is precisely the goal of the recently launched QSNET project: A network of clocks for measuring the stability of fundamental constants. QSNET will include state-of-the-art atomic clocks, but will also develop next-generation molecular and highly charged ion clocks with enhanced sensitivity to variations of fundamental constants. We describe the technological and scientific aims of QSNET and evaluate its expected performance. We show that in the range of parameters probed by QSNET, either we will discover new physics, or we will impose new constraints on violations of fundamental symmetries and a range of theories beyond the Standard Model, including dark matter and dark energy models.

Published
2021

4. Magnetic-field-induced nonlocal effects on the vortex interactions in twin-free YBa2Cu3O7

Author

White JS, Heslop RW, Holmes AT, Forgan EM, Hinkov V, Egetenmeyer N, Gavilano JL, Laver M, Dewhurst CD, Cubitt R, and Erb A

Abstract

The vortex lattice (VL) in the high ? superconductor YBa2Cu3O7 at 2 K and with the magnetic field parallel to the crystal c axis undergoes a sequence of transitions between different structures as a function of applied magnetic field. However from structural studies alone it is not possible to determine precisely the system anisotropy that governs the transitions between different structures. To address this question here we report new small angle neutron scattering measurements of both the VL structure at higher temperatures and the field and temperature dependence of the VL form factor. Our measurements demonstrate how the influence of anisotropy on the VL which in theory can be parameterized as nonlocal corrections becomes progressively important with increasing magnetic field and suppressed by increasing the temperature toward Tc. The data indicate that nonlocality due to different anisotropies plays an important role in determining the VL properties.

Published
2011
Full Text
View/download PDF

5. Gap in KFe2As2 studied by small-angle neutron scattering observations of the magnetic vortex lattice

Author

Kawano-Furukawa H, Bowell CJ, White JS, Heslop RW, Cameron AS, Forgan EM, Kihou K, Lee CH, Iyo A, Eisaki H, Saito T, Fukazawa H, Kohori Y, Cubitt R, Dewhurst CD, Gavilano JL, and Zolliker M

Abstract

By neutron scattering we have observed a well ordered magnetic vortex lattice (VL) in KFe2As2 single crystals. With the field along the c axis a nearly isotropic hexagonal VL is formed with no symmetry transitions up to high fields indicating a small anisotropy of the superconducting state around this axis. This rules out line nodes parallel to the c axis and thus d wave or anisotropic s wave pairing. However the strong temperature dependence of the signal at T « Tc shows that extremely small gap values exist; these may arise from nodal lines perpendicular to the c axis.

Published
2011
Full Text
View/download PDF

11. Analysis of time-of-flight small-angle neutron scattering data on mesoscopic crystals such as magnetic vortex lattices.

Author

Campillo E, Bartkowiak M, Prokhnenko O, Smeibidl P, Forgan EM, and Blackburn E

Abstract

Bragg diffracted intensities and q values for crystalline structures with long repeat distances may be obtained by small-angle neutron scattering (SANS) investigations. An account is given of the methods, advantages and disadvantages of obtaining such data by the multichromatic time-of-flight method, compared with the more traditional quasi-monochromatic SANS method. This is illustrated with data obtained from high-magnetic-field measurements on magnetic vortex line lattices in superconductors on the former HFM/EXED instrument at Helmholtz-Zentrum Berlin. The methods have application to other mesoscopic crystalline structures investigated by SANS instruments at pulsed sources., (© Emma Campillo et al. 2022.)

Published
2022
Full Text
View/download PDF

12. Magnetic-field-controlled spin fluctuations and quantum critically in Sr 3 Ru 2 O 7 .

Author

Lester C, Ramos S, Perry RS, Croft TP, Laver M, Bewley RI, Guidi T, Hiess A, Wildes A, Forgan EM, and Hayden SM

Abstract

When the transition temperature of a continuous phase transition is tuned to absolute zero, new ordered phases and physical behaviour emerge in the vicinity of the resulting quantum critical point. Sr 3 Ru 2 O 7 can be tuned through quantum criticality with magnetic field at low temperature. Near its critical field B c it displays the hallmark T-linear resistivity and a [Formula: see text] electronic heat capacity behaviour of strange metals. However, these behaviours have not been related to any critical fluctuations. Here we use inelastic neutron scattering to reveal the presence of collective spin fluctuations whose relaxation time and strength show a nearly singular variation with magnetic field as B c is approached. The large increase in the electronic heat capacity and entropy near B c can be understood quantitatively in terms of the scattering of conduction electrons by these spin-fluctuations. On entering the spin-density-wave ordered phase present near B c , the fluctuations become stronger suggesting that the order is stabilised through an "order-by-disorder" mechanism., (© 2021. The Author(s).)

Published
2021
Full Text
View/download PDF

13. Spatially inhomogeneous competition between superconductivity and the charge density wave in YBa 2 Cu 3 O 6.67 .

Author

Choi J, Ivashko O, Blackburn E, Liang R, Bonn DA, Hardy WN, Holmes AT, Christensen NB, Hücker M, Gerber S, Gutowski O, Rütt U, Zimmermann MV, Forgan EM, Hayden SM, and Chang J

Abstract

The charge density wave in the high-temperature superconductor YBa 2 Cu 3 O 7-x (YBCO) has two different ordering tendencies differentiated by their c-axis correlations. These correspond to ferro- (F-CDW) and antiferro- (AF-CDW) couplings between CDWs in neighbouring CuO 2 bilayers. This discovery has prompted several fundamental questions: how does superconductivity adjust to two competing orders and are either of these orders responsible for the electronic reconstruction? Here we use x-ray diffraction to study YBa 2 Cu 3 O 6.67 as a function of magnetic field and temperature. We show that regions with F-CDW correlations suppress superconductivity more strongly than those with AF-CDW correlations. This implies that an inhomogeneous superconducting state exists, in which some regions show a fragile form of superconductivity. By comparison of F-CDW and AF-CDW correlation lengths, it is concluded that F-CDW ordering is sufficiently long-range to modify the electronic structure. Our study thus suggests that F-CDW correlations impact both the superconducting and normal state properties of YBCO.

Published
2020
Full Text
View/download PDF

14. Magnetic field controlled charge density wave coupling in underdoped YBa2Cu3O6+x.

Author

Chang J, Blackburn E, Ivashko O, Holmes AT, Christensen NB, Hücker M, Liang R, Bonn DA, Hardy WN, Rütt U, Zimmermann MV, Forgan EM, and Hayden SM

Abstract

The application of magnetic fields to layered cuprates suppresses their high-temperature superconducting behaviour and reveals competing ground states. In widely studied underdoped YBa2Cu3O6+x (YBCO), the microscopic nature of field-induced electronic and structural changes at low temperatures remains unclear. Here we report an X-ray study of the high-field charge density wave (CDW) in YBCO. For hole dopings ∼0.123, we find that a field (B∼10 T) induces additional CDW correlations along the CuO chain (b-direction) only, leading to a three-dimensional (3D) ordered state along this direction at B∼15 T. The CDW signal along the a-direction is also enhanced by field, but does not develop an additional pattern of correlations. Magnetic field modifies the coupling between the CuO2 bilayers in the YBCO structure, and causes the sudden appearance of the 3D CDW order. The mirror symmetry of individual bilayers is broken by the CDW at low and high fields, allowing Fermi surface reconstruction, as recently suggested.

Published
2016
Full Text
View/download PDF

15. The microscopic structure of charge density waves in underdoped YBa2Cu3O6.54 revealed by X-ray diffraction.

Author

Forgan EM, Blackburn E, Holmes AT, Briffa AK, Chang J, Bouchenoire L, Brown SD, Liang R, Bonn D, Hardy WN, Christensen NB, Zimmermann MV, Hücker M, and Hayden SM

Abstract

Charge density wave (CDW) order appears throughout the underdoped high-temperature cuprate superconductors, but the underlying symmetry breaking and the origin of the CDW remain unclear. We use X-ray diffraction to determine the microscopic structure of the CDWs in an archetypical cuprate YBa2Cu3O6.54 at its superconducting transition temperature ∼ 60 K. We find that the CDWs in this material break the mirror symmetry of the CuO2 bilayers. The ionic displacements in the CDWs have two components, which are perpendicular and parallel to the CuO2 planes, and are out of phase with each other. The planar oxygen atoms have the largest displacements, perpendicular to the CuO2 planes. Our results allow many electronic properties of the underdoped cuprates to be understood. For instance, the CDWs will lead to local variations in the electronic structure, giving an explicit explanation of density-wave states with broken symmetry observed in scanning tunnelling microscopy and soft X-ray measurements.

Published
2015
Full Text
View/download PDF

16. Field-tunable spin-density-wave phases in Sr3Ru2O7.

Author

Lester C, Ramos S, Perry RS, Croft TP, Bewley RI, Guidi T, Manuel P, Khalyavin DD, Forgan EM, and Hayden SM

Abstract

The conduction electrons in a metal experience competing interactions with each other and the atomic nuclei. This competition can lead to many types of magnetic order in metals. For example, in chromium the electrons order to form a spin-density-wave (SDW) antiferromagnetic state. A magnetic field may be used to perturb or tune materials with delicately balanced electronic interactions. Here, we show that the application of a magnetic field can induce SDW magnetic order in a quasi-2D metamagnetic metal, where none exists in the absence of the field. We use magnetic neutron scattering to show that the application of a large (B ≈ 8 T) magnetic field to the perovskite metal Sr3Ru2O7 (refs 3-7) can be used to tune the material through two magnetically ordered SDW states. The ordered states exist over relatively small ranges in field (≲0.4 T), suggesting that their origin is due to a new mechanism related to the electronic fine structure near the Fermi energy, possibly combined with the stabilizing effect of magnetic fluctuations. The magnetic field direction is shown to control the SDW domain populations, which naturally explains the strong resistivity anisotropy or 'electronic nematic' behaviour observed in this material.

Published
2015
Full Text
View/download PDF

17. X-ray diffraction observations of a charge-density-wave order in superconducting ortho-II YBa2Cu3O6.54 single crystals in zero magnetic field.

Author

Blackburn E, Chang J, Hücker M, Holmes AT, Christensen NB, Liang R, Bonn DA, Hardy WN, Rütt U, Gutowski O, von Zimmermann M, Forgan EM, and Hayden SM

Abstract

X-ray diffraction measurements show that the high-temperature superconductor YBa2Cu3O6.54, with ortho-II oxygen order, has charge-density-wave order in the absence of an applied magnetic field. The dominant wave vector of the charge density wave is q(CDW)=(0,0.328(2),0.5), with the in-plane component parallel to the b axis (chain direction). It has a similar incommensurability to that observed in ortho-VIII and ortho-III samples, which have different dopings and oxygen orderings. Our results for ortho-II contrast with recent high-field NMR measurements, which suggest a commensurate wave vector along the a axis. We discuss the relationship between spin and charge correlations in YBa2Cu3O(y) and recent high-field quantum oscillation, NMR, and ultrasound experiments.

Published
2013
Full Text
View/download PDF

18. Vortex lattice studies in CeCoIn5 with H is orthogonal to c.

Author

Das P, White JS, Holmes AT, Gerber S, Forgan EM, Bianchi AD, Kenzelmann M, Zolliker M, Gavilano JL, Bauer ED, Sarrao JL, Petrovic C, and Eskildsen MR

Abstract

We present small angle neutron scattering studies of the vortex lattice (VL) in CeCoIn5 with magnetic fields applied parallel (H) to the antinodal [100] and nodal [110] directions. For H is parallel to [100], a single VL orientation is observed, while a 90° reorientation transition is found for H is parallel to [110]. For both field orientations and VL configurations we find a distorted hexagonal VL with an anisotropy, Γ=2.0±0.05. The VL form factor shows strong Pauli paramagnetic effects similar to what have previously been reported for H is parallel to [001]. At high fields, above which the upper critical field (H(c2)) becomes a first-order transition, an increased disordering of the VL is observed.

Published
2012
Full Text
View/download PDF

19. A 17 T horizontal field cryomagnet with rapid sample change designed for beamline use.

Author

Holmes AT, Walsh GR, Blackburn E, Forgan EM, and Savey-Bennett M

Abstract

We describe a new 17 T cryomagnet for neutron, x-ray or optical experiments with rapid in situ sample change. Sample temperatures are controllable from below 2 K to 300 K in vacuum. Alternatively a room temperature bore insert can be used for experiments at the field center under atmospheric conditions. Some of the advantages of this system include very low background scattering due to the small amount of material in the beam path, rapid cooldown, and fast field ramping. Access is available in a ±10°-11° cone around the field direction on both sides.

Published
2012
Full Text
View/download PDF

20. Exploring the fragile antiferromagnetic superconducting phase in CeCoIn5.

Author

Blackburn E, Das P, Eskildsen MR, Forgan EM, Laver M, Niedermayer C, Petrovic C, and White JS

Abstract

CeCoIn5 is a heavy fermion type-II superconductor showing clear signs of Pauli-limited superconductivity. A variety of measurements give evidence for a transition at high magnetic fields inside the superconducting state, when the field is applied either parallel to or perpendicular to the c axis. When the field is perpendicular to the c axis, antiferromagnetic order develops on the high-field side of the transition. This order remains as the field is rotated out of the basal plane, but the associated moment eventually disappears above 17°, indicating that anomalies seen with the field parallel to the c axis are not related to this magnetic order. We discuss the implications of this finding.

Published
2010
Full Text
View/download PDF

21. Magnetic flux lines in type-II superconductors and the 'hairy ball' theorem.

Author

Laver M and Forgan EM

Abstract

Many prominent phenomena originate from geometrical effects rather than from local physics. For example, the 'hairy ball' (HB) theorem asserts that a hairy sphere cannot be combed without introducing at least one singularity, and is fulfilled by the atmospheric circulation with the existence of stratospheric polar vortices and the fact that there is always at least one place on Earth where the horizontal wind is still. In this study, we examine the consequences of the HB theorem for the lattice of flux lines that form when a magnetic field is applied to a type-II superconducting crystal. We find that discontinuities must exist in lattice shape as a function of field direction relative to the crystal. Extraordinary, 'unconventional' flux line lattice shapes that spontaneously break the underlying crystal symmetry are thus remarkably likely across all type-II superconductors, both conventional and unconventional.

Published
2010
Full Text
View/download PDF

22. Weak superconducting pairing and a single isotropic energy gap in stoichiometric LiFeAs.

Author

Inosov DS, White JS, Evtushinsky DV, Morozov IV, Cameron A, Stockert U, Zabolotnyy VB, Kim TK, Kordyuk AA, Borisenko SV, Forgan EM, Klingeler R, Park JT, Wurmehl S, Vasiliev AN, Behr G, Dewhurst CD, and Hinkov V

Abstract

We report superconducting (SC) properties of stoichiometric LiFeAs (T(c)=17 K) studied by small-angle neutron scattering (SANS) and angle-resolved photoemission (ARPES). Although the vortex lattice exhibits no long-range order, well-defined SANS rocking curves indicate better ordering than in chemically doped 122 compounds. The London penetration depth lambda(ab)(0)=210+/-20 nm, determined from the magnetic field dependence of the form factor, is compared to that calculated from the ARPES band structure with no adjustable parameters. The temperature dependence of lambda(ab) is best described by a single isotropic SC gap Delta(0)=3.0+/-0.2 meV, which agrees with the ARPES value of Delta(0)(ARPES)=3.1+/-0.3 meV and corresponds to the ratio 2Delta/k(B)T(c)=4.1+/-0.3, approaching the weak-coupling limit predicted by the BCS theory. This classifies LiFeAs as a weakly coupled single-gap superconductor.

Published
2010
Full Text
View/download PDF

23. Morphology of the superconducting vortex lattice in ultrapure niobium.

Author

Mühlbauer S, Pfleiderer C, Böni P, Laver M, Forgan EM, Fort D, Keiderling U, and Behr G

Abstract

The morphology of the superconducting flux line lattice (FLL) of Nb comprises gradual variations with various lock-in transitions and symmetry breaking rotations. We report a comprehensive small-angle neutron scattering study of the FLL in an ultrapure single crystal of Nb as a function of the orientation of the applied magnetic field. We attribute the general morphology of the FLL and its orientation to three dominant mechanisms; first, nonlocal contributions, second, the transition between open and closed Fermi surface sheets and, third, the intermediate mixed state between the Meissner and the Shubnikov phase.

Published
2009
Full Text
View/download PDF

24. Fermi surface and order parameter driven vortex lattice structure transitions in twin-free YBa2Cu3O7.

Author

White JS, Hinkov V, Heslop RW, Lycett RJ, Forgan EM, Bowell C, Strässle S, Abrahamsen AB, Laver M, Dewhurst CD, Kohlbrecher J, Gavilano JL, Mesot J, Keimer B, and Erb A

Abstract

We report on small-angle neutron scattering studies of the intrinsic vortex lattice (VL) structure in detwinned YBa2Cu3O7 at 2 K, and in fields up to 10.8 T. Because of the suppressed pinning to twin-domain boundaries, a new distorted hexagonal VL structure phase is stabilized at intermediate fields. It is separated from a low-field hexagonal phase of different orientation and distortion by a first-order transition at 2.0(2) T that is probably driven by Fermi surface effects. We argue that another first-order transition at 6.7(2) T, into a rhombic structure with a distortion of opposite sign, marks a crossover from a regime where Fermi surface anisotropy is dominant, to one where the VL structure and distortion is controlled by the order-parameter anisotropy.

Published
2009
Full Text
View/download PDF

25. Uncovering flux line correlations in superconductors by reverse monte carlo refinement of neutron scattering data.

Author

Laver M, Forgan EM, Abrahamsen AB, Bowell C, Geue T, and Cubitt R

Abstract

We describe the use of reverse Monte Carlo refinement to extract structural information from angle-resolved data of a Bragg peak. Starting with small-angle neutron scattering data, the positional order of an ensemble of flux lines in superconducting Nb is revealed. We discuss the uncovered correlation functions in the light of topical theories, in particular, the "Bragg glass" paradigm.

Published
2008
Full Text
View/download PDF

26. Superconducting vortices in CeCoIn5: toward the Pauli-limiting field.

Author

Bianchi AD, Kenzelmann M, Debeer-Schmitt L, White JS, Forgan EM, Mesot J, Zolliker M, Kohlbrecher J, Movshovich R, Bauer ED, Sarrao JL, Fisk Z, Petrovic C, and Eskildsen MR

Abstract

Many superconducting materials allow the penetration of magnetic fields in a mixed state in which the superfluid is threaded by a regular lattice of Abrikosov vortices, each carrying one quantum of magnetic flux. The phenomenological Ginzburg-Landau theory, based on the concept of characteristic length scales, has generally provided a good description of the Abrikosov vortex lattice state. We conducted neutron-scattering measurements of the vortex lattice form factor in the heavy-fermion superconductor cerium-cobalt-indium (CeCoIn5) and found that this form factor increases with increasing field-opposite to the expectations within the Abrikosov-Ginzburg-Landau paradigm. We propose that the anomalous field dependence of the form factor arises from Pauli paramagnetic effects around the vortex cores and from the proximity of the superconducting state to a quantum critical point.

Published
2008
Full Text
View/download PDF

27. Muons as local probes of three-body correlations in the mixed state of type-II superconductors.

Author

Menon GI, Drew A, Divakar UK, Lee SL, Gilardi R, Mesot J, Ogrin FY, Charalambous D, Forgan EM, Momono N, Oda M, Dewhurst C, and Baines C

Abstract

The vortex glass state formed by magnetic flux lines in a type-II superconductor is shown to possess nontrivial three-body correlations. While such correlations are usually difficult to measure in glassy systems, the magnetic fields associated with the flux vortices allow us to probe these via muon-spin rotation measurements of the local field distribution. We show via numerical simulations and analytic calculations that these observations provide detailed microscopic insight into the local order of the vortex glass and more generally validate a theoretical framework for correlations in glassy systems.

Published
2006
Full Text
View/download PDF

28. Spontaneous symmetry-breaking vortex lattice transitions in pure niobium.

Author

Laver M, Forgan EM, Brown SP, Charalambous D, Fort D, Bowell C, Ramos S, Lycett RJ, Christen DK, Kohlbrecher J, Dewhurst CD, and Cubitt R

Abstract

We report an extensive investigation of magnetic vortex lattice (VL) structures in single crystals of pure niobium with the magnetic field applied parallel to a fourfold symmetry axis, so as to induce frustration between the cubic crystal symmetry and hexagonal VL coordination expected in an isotropic situation. We observe new VL structures and phase transitions; all the VL phases observed (including those with an exactly square unit cell) spontaneously break some crystal symmetry. One phase even has the lowest possible symmetry of a two-dimensional Bravais lattice. This is quite unlike the situation in high-Tc or borocarbide superconductors, where VL structures orient along particular directions of high crystal symmetry. The causes of this behavior are discussed.

Published
2006
Full Text
View/download PDF

29. Coexistence and coupling of superconductivity and magnetism in thin film structures.

Author

Drew AJ, Lee SL, Charalambous D, Potenza A, Marrows C, Luetkens H, Suter A, Prokscha T, Khasanov R, Morenzoni E, Ucko D, and Forgan EM

Abstract

Superconducting and magnetic order are usually mutually exclusive, and are found to coexist in relatively few materials. We have obtained direct evidence for a spin-density wave (SDW) coexisting with bulk superconductivity in a ferromagnetic-superconducting trilayer. In the superconducting state the amplitude of the SDW is enhanced and modeling the data also suggests a pi/2 phase shift of one component of the SDW, implying a profound coupling of these two forms of order.

Published
2005
Full Text
View/download PDF

30. Square vortex lattice at anomalously low magnetic fields in electron-doped Nd1.85Ce0.15CuO4.

Author

Gilardi R, Mesot J, Brown SP, Forgan EM, Drew A, Lee SL, Cubitt R, Dewhurst CD, Uefuji T, and Yamada K

Abstract

We report here on the first direct observations of the vortex lattice in the bulk of electron-doped Nd1.85Ce0.15CuO4 single crystals. Using small-angle neutron scattering, we have observed a square vortex lattice with the nearest neighbors oriented at 45 degrees from the Cu-O bond direction, which is consistent with theories based on the d-wave superconducting gap. However, the square symmetry persists down to unusually low magnetic fields. Moreover, the diffracted intensity from the vortex lattice is found to decrease rapidly with increasing magnetic field.

Published
2004
Full Text
View/download PDF

31. Direct observation of the flux-line vortex glass phase in a type II superconductor.

Author

Divakar U, Drew AJ, Lee SL, Gilardi R, Mesot J, Ogrin FY, Charalambous D, Forgan EM, Menon GI, Momono N, Oda M, Dewhurst CD, and Baines C

Abstract

The order of the vortex state in La1.9Sr0.1CuO4 is probed using muon-spin rotation and small-angle neutron scattering. A transition from a Bragg glass to a vortex glass is observed, where the latter is composed of disordered vortex lines. In the vicinity of the transition the microscopic behavior reflects a delicate interplay of thermally induced and pinning-induced disorder.

Published
2004
Full Text
View/download PDF

32. Triangular to square flux lattice phase transition in YBa2Cu3O7.

Author

Brown SP, Charalambous D, Jones EC, Forgan EM, Kealey PG, Erb A, and Kohlbrecher J

Abstract

We have used the technique of small-angle neutron scattering to observe magnetic flux lines directly in a YBa2Cu3O7 single crystal at fields higher than previously reported. For field directions close to perpendicular to the CuO2 planes, we find that the flux lattice structure changes smoothly from a distorted triangular coordination to nearly perfectly square as the magnetic induction approaches 11 T. The orientation of the square flux lattice is as expected from recent d-wave theories but is 45 degrees from that recently observed in La(1.83)Sr(0.17)CuO(4+delta).

Published
2004
Full Text
View/download PDF

33. Observation of the conduction electron spin polarization in the Ag spacer of a Fe/Fg/Fe trilayer.

Author

Luetkens H, Korecki J, Morenzoni E, Prokscha T, Birke M, Glückler H, Khasanov R, Klauss HH, Slezak T, Suter A, Forgan EM, Niedermayer Ch, and Litterst FJ

Abstract

The spatially oscillating electron spin polarization in the Ag spacer of a 4 nm Fe/20 nmAg/4 nm Fe(001) epitaxial trilayer has been determined by means of low energy muon spin rotation. It oscillates with the same period as the interlayer exchange coupling, but shows a much weaker attenuation at large distances x from the interface. The measured magnetization profile from the inner 14 nm of the spacer is described by an oscillating polarization decaying as x(-0.8(1)). This unusual behavior may arise from a full confinement of electron states within the spacer.

Published
2003
Full Text
View/download PDF

34. Distribution of transport current in a type-II superconductor studied by small-angle neutron scattering.

Author

Pautrat A, Goupil C, Simon Ch, Charalambous D, Forgan EM, Lazard G, Mathieu P, and Brûlet A

Abstract

We report small-angle neutron scattering measurements on the vortex lattice in a PbIn polycrystal in the presence of an applied current. Using the rocking curves as a probe of the distribution of current in the sample, we observe that vortex pinning is due to the surface roughness. This leads to a surface current that persists in the flux-flow region. We show the influence of surface treatments on the distribution of this current.

Published
2003
Full Text
View/download PDF

35. Direct evidence for an intrinsic square vortex lattice in the overdoped high- T(c) superconductor La(1.83)Sr(0.17)CuO(4+delta).

Author

Gilardi R, Mesot J, Drew A, Divakar U, Lee SL, Forgan EM, Zaharko O, Conder K, Aswal VK, Dewhurst CD, Cubitt R, Momono N, and Oda M

Abstract

We report here the first direct observations of a well ordered vortex lattice in the bulk of a La(2-x)Sr(x)CuO(4+delta) single crystal (slightly overdoped, x = 0.17). Our small angle neutron scattering investigation of the mixed phase reveals a crossover from triangular to square coordination with increasing magnetic field. The existence of an intrinsic square vortex lattice has never been observed in high-temperature superconductors and is indicative of the coupling of the vortex lattice to a source of anisotropy, such as those provided by a d-wave order parameter or the presence of stripes.

Published
2002
Full Text
View/download PDF

36. Intrinsic behavior of flux lines in pure niobium near the upper critical field.

Author

Forgan EM, Levett SJ, Kealey PG, Cubitt R, Dewhurst CD, and Fort D

Abstract

We report small-angle neutron-scattering (SANS) measurements of flux line properties near H(c2) in an ultrapure sample of niobium with weak pinning of flux in the bulk. These confirm in detail the Abrikosov picture of the flux line lattice to within 20 mK of the upper critical field line. However, it has recently been claimed [X. S. Ling et al., Phys. Rev. Lett. 86, 712 (2001)], on the basis of SANS observations of a disordering of flux lines in niobium, that the flux lattice melts at temperatures clearly separated from the upper critical field line. This discrepancy may possibly arise from differences in sample purity and pinning.

Published
2002
Full Text
View/download PDF

37. Measurement of vortex motion in a type-II superconductor: A novel use of the neutron spin-echo technique

Author

Forgan EM, Kealey PG, Johnson ST, Pautrat A, Simon C, Lee SL, Aegerter CM, Cubitt R, Farago B, and Schleger P

Abstract

We have used the neutron spin-echo technique to measure the small energy change of neutrons which are diffracted by a moving vortex lattice in a low-pinning Nb-Ta superconducting sample. A transport current was passed in the mixed state to cause flux line movement. In the case of uniform motion, the flux velocity v(L) was given as expected by the values of electric and magnetic fields, via E = -v(L)wedgeB. We show that with a nonuniformly moving vortex lattice, one can measure the dispersion of the velocities, opening up new possibilities for investigating moving vortex lines.

Published
2000
Full Text
View/download PDF

38. Reconstruction from small-angle neutron scattering measurements of the real space magnetic field distribution in the mixed state of Sr2RuO4.

Author

Kealey PG, Riseman TM, Forgan EM, Galvin LM, Mackenzie AP, Lee SL, Paul DM, Cubitt R, Agterberg DF, Heeb R, Mao ZQ, and Maeno Y

Abstract

We have measured the diffracted neutron scattering intensities from the square magnetic flux lattice in the perovskite superconductor Sr2RuO4, which is thought to exhibit p-wave pairing with a two-component order parameter. The relative intensities of different flux lattice Bragg reflections over a wide range of field and temperature have been shown to be inconsistent with a single component Ginzburg-Landau theory but qualitatively agree with a two-component p-wave Ginzburg-Landau theory.

Published
2000
Full Text
View/download PDF

39. Depth-resolved profile of the magnetic field beneath the surface of a superconductor with a few nm resolution

Author

Jackson TJ, Riseman TM, Forgan EM, Gluckler H, Prokscha T, Morenzoni E, Pleines M, Niedermayer C, Schatz G, Luetkens H, and Litterst J

Abstract

The variation of a magnetic field as a function of depth beneath the surface of an YBa(2)Cu(3)O(7-delta) thin film in the Meissner state has been measured using low energy muons. The depth of implantation was varied from 20-150 nm by tuning the energy of the implanted muons from 3-30 keV. These are direct measurements of the penetration of a magnetic field beneath a superconducting surface which illustrate the power of low energy muons for near surface studies in superconductivity and magnetism.

Published
2000
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results