Your search keyword '"Cheetham, Anthony"' showing total 28 results

1. Microscopic origin of temperature-dependent magnetism in spin-orbit-coupled transition metal compounds

Author

Li, Ying, Seshadri, Ram, Wilson, Stephen D., Cheetham, Anthony K., and Valenti, Roser

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

A few $4d$ and $5d$ transition metal compounds with various electron fillings were recently found to exhibit magnetic susceptibilities $\chi$ and magnetic moments that deviate from the well-established Kotani model. This model has been considered for decades to be the canonical expression to describe the temperature dependence of magnetism in systems with non-negligible spin-orbit coupling effects. In this work, we uncover the origin of such discrepancies and determine the applicability and limitations of the Kotani model by calculating the temperature dependence of the magnetic moments of a series of $4d$ (Ru-based) and $5d$ (W-based) systems at different electron fillings. For this purpose, we perform exact diagonalization of $ab~initio$-derived relativistic multiorbital Hubbard models on finite clusters and compute their magnetic susceptibilities. Comparison with experimentally measured magnetic properties indicates that contributions such as a temperature independent $\chi_0$ background, crystal field effects, Coulomb and Hund's couplings, and intersite interactions - not included in the Kotani model - are specially crucial to correctly describe the temperature dependence of $\chi$ and magnetic moments at various electron fillings in these systems. Based on our results, we propose a generalized approach to describe their magnetism., Comment: explained clearly the significance of deviations from Kotani model; added three-site cluster studies and calculations including the eg orbital

Published

2024

2. Kinetic Monte Carlo Simulations of Sodium Ion Transport in NaSICON Electrodes

Author

Wang, Ziliang, Mishra, Tara P., Xie, Weihang, Deng, Zeyu, Gautam, Gopalakrishnan Sai, Cheetham, Anthony K., and Canepa, Pieremanuele

Subjects

Condensed Matter - Materials Science, Condensed Matter - Statistical Mechanics

Abstract

The development of high-performance sodium (Na) ion batteries requires improved electrode materials. The energy and power densities of Na superionic conductor (NaSICON) electrode materials are promising for large-scale energy storage applications. However, several practical issues limit the full utilization of the theoretical energy densities of NaSICON electrodes. A pressing challenge lies in the limited sodium extraction in low Na content NaSICONs, e.g., $\rm Na_1V^{IV}V^{IV}(PO_4)_3 \leftrightarrow V^{V}V^{IV}(PO_4)_3 + 1e^- + 1Na^+$. Hence, it is important to quantify the Na-ion mobility in a broad range of NaSICON electrodes. Using a kinetic Monte Carlo approach bearing the accuracy of first-principles calculations, we elucidate the variability of Na-ion transport vs. Na content in three important NaSICON electrodes, Na$_{\rm x}$Ti$_{2}$(PO$_{4}$)$_{3}$, Na$_{\rm x}$V$_{2}$(PO$_{4}$)$_{3}$, and Na$_{\rm x}$Cr$_{2}$(PO$_{4}$)$_{3}$. Our study suggests that Na$^+$ transport in NaSICON electrodes is almost entirely determined by the local electrostatic and chemical environment set by the transition metal and the polyanionic scaffold. The competition with the ordering-disordering phenomena of Na-vacancies also plays a role in influencing Na-transport. We link the variations in the Na$^+$ kinetic properties by analyzing the competition of ligand field stabilization transition metal ions and their ionic radii. We interpret the limited Na-extraction at $x = 1$ observed experimentally by gaining insights into the local Na-vacancy interplay. We propose that targeted chemical substitutions of transition metals disrupting local charge arrangements will be critical to reducing the occurrence of strong Na$^+$-vacancy orderings at low Na concentrations, thus, expanding the accessible capacities of these electrode materials.

Published

2023

3. Chemical Synthesis and Materials Discovery

Author

Cheetham, Anthony K., Seshadri, Ram, and Wudl, Fred

Subjects

Condensed Matter - Materials Science

Abstract

Functional materials impact every area of our lives ranging from electronic and computing devices to transportation and health. In this Perspective, we examine the relationship between synthetic discoveries and the scientific breakthroughs that they have enabled. By tracing the development of some important examples, we explore how and why the materials were initially synthesized and how their utility was subsequently recognised. Three common pathways to materials breakthroughs are identified. In a small number of cases, such as the aluminosilicate zeolite catalyst ZSM-5, an important advance is made by using design principles based upon earlier work. There are also rare cases of breakthroughs that are serendipitous, such as the buckyball and Teflon(R). Most commonly, however, the breakthrough repurposes a compound that is already known and was often made out of curiosity or for a different application. Typically, the synthetic discovery precedes the discovery of functionality by many decades; key examples include conducting polymers, topological insulators and electrodes for lithium-ion batteries., Comment: 15 pages, two figures

Published

2022

4. Two Rings and a Marginally Resolved, 5 AU, Disk Around LkCa 15 Identified Via Near Infrared Sparse Aperture Masking Interferometry

Author

Blakely, Dori, Francis, Logan, Johnstone, Doug, Soulain, Anthony, Tuthill, Peter, Cheetham, Anthony, Sanchez-Bermudez, Joel, Sivaramakrishnan, Anand, Dong, Ruobing, van der Marel, Nienke, Cooper, Rachel, Vigan, Arthur, and Cantalloube, Faustine

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

Sparse aperture masking interferometry (SAM) is a high resolution observing technique that allows for imaging at and beyond a telescope's diffraction limit. The technique is ideal for searching for stellar companions at small separations from their host star; however, previous analysis of SAM observations of young stars surrounded by dusty disks have had difficulties disentangling planet and extended disk emission. We analyse VLT/SPHERE-IRDIS SAM observations of the transition disk LkCa\,15, model the extended disk emission, probe for planets at small separations, and improve contrast limits for planets. We fit geometrical models directly to the interferometric observables and recover previously observed extended disk emission. We use dynamic nested sampling to estimate uncertainties on our model parameters and to calculate evidences to perform model comparison. We compare our extended disk emission models against point source models to robustly conclude that the system is dominated by extended emission within 50 au. We report detections of two previously observed asymmetric rings at $\sim$17 au and $\sim$45 au. The peak brightness location of each model ring is consistent with the previous observations. We also, for the first time with imaging, robustly recover an elliptical Gaussian inner disk, previously inferred via SED fitting. This inner disk has a FWHM of ~5 au and a similar inclination and orientation as the outer rings. Finally, we recover no clear evidence for candidate planets. By modelling the extended disk emission, we are able to place a lower limit on the near infrared companion contrast of at least 1000., Comment: Accepted for publication in ApJ

Published

2022

5. Stacking Faults Assist Lithium-Ion Conduction in a Halide-Based Superionic Conductor

Author

Sebti, Elias, Evans, Hayden A., Chen, Hengning, Richardson, Peter M., White, Kelly M., Giovine, Raynald, Koirala, Krishna Prasad, Xu, Yaobin, Gonzalez-Correa, Eliovardo, Wang, Chongmin, Brown, Craig M., Cheetham, Anthony K., Canepa, Pieremanuele, and Clément, Raphaële J.

Subjects

Condensed Matter - Materials Science

Abstract

In the pursuit of urgently-needed, energy dense solid-state batteries for electric vehicle and portable electronics applications, halide solid electrolytes offer a promising path forward with exceptional compatibility against high-voltage oxide electrodes, tunable ionic conductivities, and facile processing. For this family of compounds, synthesis protocols strongly affect cation site disorder and modulate Li+ mobility. In this work, we reveal the presence of a high concentration of stacking faults in the superionic conductor Li3YCl6 and demonstrate a method of controlling its Li+ conductivity by tuning the defect concentration with synthesis and heat treatments at select temperatures. Leveraging complementary insights from variable temperature synchrotron X-ray diffraction, neutron diffraction, cryogenic transmission electron microscopy, solid-state nuclear magnetic resonance, density functional theory, and electrochemical impedance spectroscopy, we identify the nature of planar defects and the role of nonstoichiometry in lowering Li+ migration barriers and increasing Li site connectivity in mechanochemically-synthesized Li3YCl6. We harness paramagnetic relaxation enhancement to enable 89Y solid-state NMR, and directly contrast the Y cation site disorder resulting from different preparation methods, demonstrating a potent tool for other researchers studying Y-containing compositions. With heat treatments at temperatures as low as 333 K (60{\deg}C), we decrease the concentration of planar defects, demonstrating a simple method for tuning the Li+ conductivity. Findings from this work are expected to be generalizable to other halide solid electrolyte candidates and provide an improved understanding of defect-enabled Li+ conduction in this class of Li-ion conductors.

Published

2022

6. Phase Stability and Sodium-Vacancy Orderings in a NaSICON Electrode

Author

Wang, Ziliang, Park, Sunkyu, Deng, Zeyu, Carlier, Dany, Chotard, Jean-Noël, Croguennec, Laurence, Gautam, Gopalakrishnan Sai, Cheetham, Anthony K., Masquelier, Christian, and Canepa, Pieremanuele

Subjects

Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons

Abstract

We elucidate the thermodynamics of sodium (Na) intercalation into the sodium super-ionic conductor (NaSICON)-type electrode, Na$_x$V$_2$(PO$_4$)$_3$, for promising Na-ion batteries with high-power density. This is the first report of a computational temperature-composition phase diagram of the NaSICON-type electrode Na$_x$V$_2$(PO$_4$)$_3$. We identify two thermodynamically stable phases at the compositions Na$_2$V$_2$(PO$_4$)$_3$ and Na$_{3.5}$V$_2$(PO$_4$)$_3$, and their structural features are described for the first time based on our computational analysis. We unveil the crystal-structure and the electronic-structure origins of the ground-state compositions associated with specific Na/vacancy arrangements, which are driven by charge orderings on the vanadium sites. These results are significant for the optimization of high-energy and power densities electrodes for sustainable Na-ion batteries, Comment: 5 figures

Published

2021

7. First resolved observations of a highly asymmetric debris disc around HD 160305 with VLT/SPHERE

Author

Perrot, Clément, Thebault, Philippe, Lagrange, Anne-Marie, Boccaletti, Anthony, Vigan, Arthur, Desidera, Silvano, Augereau, Jean-Charles, Bonnefoy, Mickael, Choquet, Élodie, Kral, Quentin, Loh, Alan, Maire, Anne-Lise, Ménard, François, Messina, Sergio, Olofsson, Johan, Gratton, Raffaele, Biller, Beth, Brandner, Wolfgang, Buenzli, Esther, Chauvin, Gaël, Cheetham, Anthony, Daemgen, Sebastien, Delorme, Philippe, Feldt, Markus, Lagadec, Eric, Langlois, Maud, Lannier, Justine, Mesa, Dino, Mouillet, David, Peretti, Sébastien, Janin-Potiron, Pierre, Salter, Graeme, Sissa, Elena, Roux, Alain, Llored, Marc, Buey, Jean-Tristan, Pavlov, Alexei, Weber, Luc, and Petit, Cyril

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Context. Direct imaging of debris discs gives important information about their nature, their global morphology, and allows us to identify specific structures possibly in connection with the presence of gravitational perturbers. It is the most straightforward technique to observe planetary systems as a whole. Aims. We present the first resolved images of the debris disc around the young F-type star HD 160305, detected in scattered light using the VLT/SPHERE instrument in the near infrared. Methods. We used a post-processing method based on angular differential imaging and synthetic images of debris discs produced with a disc modelling code (GRaTer) to constrain the main characteristics of the disc around HD 160305. All of the point sources in the field of the IRDIS camera were analysed with an astrometric tool to determine whether they are bound objects or background stars. Results. We detect a very inclined (~ 82{\deg}) ring-like debris disc located at a stellocentric distance of about 86au (deprojected width ~27 au). The disc displays a brightness asymmetry between the two sides of the major axis, as can be expected from scattering properties of dust grains. We derive an anisotropic scattering factor g>0.5. A second right-left asymmetry is also observed with respect to the minor axis. We measure a surface brightness ratio of 0.73 $\pm$ 0.18 between the bright and the faint sides. Because of the low signal-to-noise ratio (S/N) of the images we cannot easily discriminate between several possible explanations for this left-right asymmetry, such as perturbations by an unseen planet, the aftermath of the breakup of a massive planetesimal, or the pericenter glow effect due to an eccentric ring. Two epochs of observations allow us to reject the companionship hypothesis for the 15 point sources present in the field., Comment: 13 pages

Published

2019

8. Long Baseline Observations of the HD100546 Protoplanetary Disk with ALMA

Author

Pérez, Sebastián, Casassus, Simon, Hales, Antonio, Marino, Sebastián, Cheetham, Anthony, Zurlo, Alice, Cieza, Lucas, Dong, Ruobing, Alarcón, Felipe, Benítez-Llambay, Pablo, Fomalont, Ed, and Avenhaus, Henning

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

Using the Atacama Large Millimeter/submillimeter Array (ALMA), we observed the young Herbig star HD 100546, host to a prominent disk with a deep, wide gap in the dust. The high-resolution 1.3 mm continuum observation reveals fine radial and azimuthal substructures in the form of a complex maze of ridges and trenches sculpting a dust ring. The $^{12}$CO(2-1) channel maps are modulated by wiggles or kinks that deviate from Keplerian kinematics particularly over the continuum ring, where deviations span 90$^\circ$ in azimuth, covering 5 km s$^{-1}$. The most pronounced wiggle resembles the imprint of an embedded massive planet of at least 5 M$_{\rm Jup}$ predicted from previous hydrodynamical simulations (Perez, Casassus, & Benitez-Llambay 2018). Such planet is expected to open a deep gap in both gas and dust density fields within a few orbital timescales, yet the kinematic wiggles lie near ridges in the continuum. The lesser strength of the wiggles in the $^{13}$CO and C$^{18}$O isotopologues show that the kinematic signature weakens at lower disk heights, and suggests qualitatively that it is due to vertical flows in the disk surface. Within the gap, the velocity field transitions from Keplerian to strongly non-Keplerian via a twist in position angle, suggesting the presence of another perturber and/or an inner warp. We also present VLT/SPHERE sparse aperture masking data which recovers scattered light emission from the gap's edges but shows no evidence for signal within the gap, discarding a stellar binary origin for its opening., Comment: 10 pages, 6 figures. Accepted for publication in ApJ Letters

Published

2019

9. ISPY -- NaCo Imaging Survey for Planets around Young stars. Discovery of an M dwarf in the gap between HD 193571 and its debris ring

Author

Barcucci, Arianna Musso, Launhardt, Ralf, Kennedy, Grant M., Avenhaus, Henning, Brems, Stefan S., van Boekel, Roy, Cantalloube, Faustine, Cheetham, Anthony, Cugno, Gabriele, Girard, Julien, Godoy, Nicolás, Henning, Thomas K., Metchev, Stanimir, Müller, André, Olofsson, Johan, Pepe, Francesco, Quanz, Sascha P., Quirrenbach, Andreas, Reffert, Sabine, Rickman, Emily L., Samland, Matthias, and Segransan, Damien

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

Context. The interaction between low-mass companions and the debris discs they reside in is still not fully understood. A debris disc can evolve due to self-stirring, a process in which planetesimals can excite their neighbours to the point of destructive collisions. In addition, the presence of a companion could further stir the disc (companion-stirring). Additional information is necessary to understand this fundamental step in the formation and evolution of a planetary system, and at the moment of writing only a handful of systems are known where a companion and a debris disc have both been detected and studied at the same time. Aims. Our primary goal is to augment the sample of these systems and to understand the relative importance between self-stirring and companion-stirring. Methods. In the course of the VLT/NaCo Imaging Survey for Planets around Young stars (ISPY), we observed HD 193571, an A0 debris disc hosting star at a distance of 68 pc with an age between 60 and 170 Myr. We obtained two sets of observations in L' band and a third epoch in H band using the GPI instrument at Gemini-South. Results. A companion was detected in all three epochs at a projected separation of 11 au (0.17 arcsec), and co-motion was confirmed through proper motion analysis. Given the inferred disc size of 120 au, the companion appears to reside within the gap between the host star and the disc. Comparison between the L' and H band magnitude and evolutionary tracks suggests a mass of 0.31 - 0.39 solar masses . Conclusions. We discovered a previously unknown M-dwarf companion around HD 193571, making it the third low-mass stellar object discovered within a debris disc. A comparison to self- and companion-stirring models suggests that the companion is likely responsible for the stirring of the disc., Comment: 10 pages, 8 figures, accepted for publication in Astronomy&Astrophysics

Published

2019

10. Interplay between Defects, Disorder and Flexibility in Metal-Organic Frameworks

Author

Bennett, Thomas D., Cheetham, Anthony K., Fuchs, Alain H., and Coudert, François-Xavier

Subjects

Condensed Matter - Materials Science

Abstract

Metal-organic frameworks are a novel family of chemically diverse materials, which are of interest across engineering, physics, chemistry, biology, and medicine-based disciplines. Since the development of the field in its current form more than two decades ago, priority has been placed on the synthesis of new structures. However, more recently, a clear trend has emerged in shifting the emphasis from material design to exploring the chemical and physical properties of those already known. In particular --- while such nanoporous materials were traditionally seen as rigid crystalline structures --- there is growing evidence that large-scale flexibility, the presence of defects and long-range disorder, are not the exception, but rather the norm, in metal-organic frameworks. Here we offer some perspective into how these concepts are perhaps inescapably intertwined, highlight recent advances in our understanding, and discuss how a consideration of the interfaces between them may lead to enhancements of the materials' functionalities.

Published

2019

11. Performance of the Gemini Planet Imager Non-Redundant Mask and spectroscopy of two close-separation binaries HR 2690 and HD 142527

Author

Greenbaum, Alexandra Z., Cheetham, Anthony, Sivaramakrishnan, Anand, Rantakyrö, Fredrik T., Duchêne, Gaspard, Tuthill, Peter, De Rosa, Robert J., Oppenheimer, Rebecca, Macintosh, Bruce, Ammons, S. Mark, Bailey, Vanessa P., Barman, Travis, Bulger, Joanna, Cardwell, Andrew, Chilcote, Jeffrey, Cotten, Tara, Doyon, Rene, Fitzgerald, Michael P., Follette, Katherine B., Gerard, Benjamin L., Goodsell, Stephen J., Graham, James R., Hibon, Pascale, Hung, Li-Wei, Ingraham, Patrick, Kalas, Paul, Konopacky, Quinn, Larkin, James E., Maire, Jérôme, Marchis, Franck, Marley, Mark S., Marois, Christian, Metchev, Stanimir, Millar-Blanchaer, Maxwell A., Morzinski, Katie M., Nielsen, Eric L., Palmer, David, Patience, Jennifer, Perrin, Marshall, Poyneer, Lisa, Pueyo, Laurent, Rajan, Abhijith, Rameau, Julien, Sadakuni, Naru, Savransky, Dmitry, Schneider, Adam C., Song, Inseok, Soummer, Remi, Thomas, Sandrine, Wallace, J. Kent, Wang, Jason J., Ward-Duong, Kimberly, Wiktorowicz, Sloane, and Wolff, Schuyler

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Gemini Planet Imager (GPI) contains a 10-hole non-redundant mask (NRM), enabling interferometric resolution in complement to its coronagraphic capabilities. The NRM operates both in spectroscopic (integral field spectrograph, henceforth IFS) and polarimetric configurations. NRM observations were taken between 2013 and 2016 to characterize its performance. Most observations were taken in spectroscopic mode with the goal of obtaining precise astrometry and spectroscopy of faint companions to bright stars. We find a clear correlation between residual wavefront error measured by the AO system and the contrast sensitivity by comparing phase errors in observations of the same source, taken on different dates. We find a typical 5-$\sigma$ contrast sensitivity of $2-3~\times~10^{-3}$ at $\sim\lambda/D$. We explore the accuracy of spectral extraction of secondary components of binary systems by recovering the signal from a simulated source injected into several datasets. We outline data reduction procedures unique to GPI's IFS and describe a newly public data pipeline used for the presented analyses. We demonstrate recovery of astrometry and spectroscopy of two known companions to HR 2690 and HD 142527. NRM+polarimetry observations achieve differential visibility precision of $\sigma\sim0.4\%$ in the best case. We discuss its limitations on Gemini-S/GPI for resolving inner regions of protoplanetary disks and prospects for future upgrades. We summarize lessons learned in observing with NRM in spectroscopic and polarimetric modes., Comment: Accepted to AJ, 22 pages, 14 figures

Published

2019

12. Synthesis, Crystal Structure, Magnetic and Electronic Properties of the Caesium-based Transition Metal Halide Cs3Fe2Br9

Author

Wei, Fengxia, Brivio, Federico, Wu, Yue, Sun, Shijing, Bristowe, Paul D., and Cheetham, Anthony K.

Subjects

Physics - Chemical Physics, Condensed Matter - Materials Science

Abstract

The diversity of halide materials related to important solar energy systems such as CsPbX3 (X = Cl, Br, I) is explored by introducing the transition metal element Fe. In particular a new compound, Cs3Fe2Br9 (space group P6_3/mmc with a = 7.5427(8) and c = 18.5849(13) {\AA}), has been synthesized and found to contain 0D face-sharing Fe2Br9 octahedral dimers. Unlike its isomorph, Cs3Bi2I9, it is black in color, has a low optical bandgap of 1.65 eV and exhibits antiferromagnetic behavior below TN = 13 K. Density functional theory calculations shed further light on these properties and also predict that the material should have anisotropic transport characteristics.

Published

2017

13. Microscopic origin of entropy-driven polymorphism in hybrid organic-inorganic perovskite materials

Author

Butler, Keith T., Kieslich, Gregor, Svane, Katrine, Cheetham, Anthony K., and Walsh, Aron

Subjects

Condensed Matter - Materials Science

Abstract

Entropy is a critical, but often overlooked, factor in determining the relative stabilities of crystal phases. The importance of entropy is most pronounced in softer materials, where small changes in free energy can drive phase transitions, which has recently been demonstrated in the case of organic-inorganic hybrid-formate perovskites. In this study we demonstrate the interplay between composition and crystal-structure that is responsible for the particularly pronounced role of entropy in determining polymorphism in hybrid organic-inorganic materials. Using ab initio based lattice dynamics we probe the origins and effects of vibrational entropy of four archetype perovskite (ABX$_3$) structures. We consider a fully inorganic material (SrTiO$_3$), an A-site hybrid halide material (CH$_3$NH$_3$PbI$_3$), an X-site hybrid material (KSr(BH$_4$)$_3$) and a mixed A- and X-site hybrid-formate material (N$_2$H$_5$Zn(HCO$_2$)$_3$), comparing the differences in entropy between two common polymorphs. The results demonstrate the importance of low-frequency inter-molecular modes in determining phase stability in these materials. The understanding gained allows us to propose a general principle for the relative stability of different polymorphs of hybrid materials as temperature is increased.

Published

2016

14. Exploring the properties of lead-free hybrid double perovskites using a combined computational-experimental approach

Author

Deng, Zeyu, Wei, Fengxia, Sun, Shijing, Kieslich, Gregor, Cheetham, Anthony K., and Bristowe, Paul D.

Subjects

Condensed Matter - Materials Science

Abstract

Density functional theory screening of the hybrid double perovskites (MA)2BIBiX6 (BI=K,Cu,Ag,Tl; X=Cl,Br,I) shows that systems with band gaps similar to those of the MAPbX3 lead compounds can be expected for BI=Cu,Ag,Tl. Motivated by these findings, (MA)2TlBiBr6, isoelectronic with MAPbBr3, was synthesised and found to have a band gap of ~2.0eV.

Published

2016

15. The Synthesis, Structure and Electronic Properties of a Lead-Free Hybrid Inorganic-Organic Double Perovskite (MA)2KBiCl6 (MA = methylammonium)

Author

Wei, Fengxia, Deng, Zeyu, Sun, Shijing, Xie, Fei, Kieslich, Gregor, Evans, Donald M., Carpenter, Michael A., Bristowe, Paul D., and Cheetham, Anthony K.

Subjects

Condensed Matter - Materials Science

Abstract

In a search for Lead-free materials that could be used as alternatives to the hybrid perovskites,(MA)PbX3, in photovoltaic applications, we have discovered a hybrid double perovskite, (MA)2KBiCl6, which shows striking similarities to the lead analogues. Spectroscopic measurements and nanoindentation studies are combined with density functional calculations to reveal the properties of this interesting system.

Published

2016

16. The SPHERE view of the planet-forming disk around HD100546

Author

Garufi, Antonio, Quanz, Sascha P., Schmid, Hans Martin, Mulders, Gijs D., Avenhaus, Henning, Boccaletti, Anthony, Ginski, Christian, Langlois, Maud, Stolker, Tomas, Augereau, Jean-Charles, Benisty, Myriam, Lopez, Bruno, Dominik, Carsten, Gratton, Raffaele, Henning, Thomas, Janson, Markus, Menard, Francois, Meyer, Michael R., Pinte, Christophe, Sissa, Elena, Vigan, Arthur, Zurlo, Alice, Bazzon, Andreas, Buenzli, Esther, Bonnefoy, Mickael, Brandner, Wolfgang, Chauvin, Gael, Cheetham, Anthony, Cudel, Maxime, Desidera, Silvano, Feldt, Markus, Galicher, Raphael, Kasper, Markus, Lagrange, Anne-Marie, Lannier, Justine, Maire, Anne-Lise, Mesa, Dino, Mouillet, David, Peretti, Sebastien, Perrot, Clement, Salter, Graeme, and Wildi, Francois

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

We image with unprecedented spatial resolution and sensitivity disk features that could be potential signs of planet-disk interaction. Two companion candidates have been claimed in the disk around the young Herbig Ae/Be star HD100546. Thus, this object serves as an excellent target for our investigation of the natal environment of giant planets. We exploit the power of extreme adaptive optics operating in conjunction with the new high-contrast imager SPHERE to image HD100546 in scattered light. We obtain the first polarized light observations of this source in the visible (with resolution as fine as 2 AU) and new H and K band total intensity images that we analyze with the Pynpoint package. The disk shows a complex azimuthal morphology, where multiple scattering of photons most likely plays an important role. High brightness contrasts and arm-like structures are ubiquitous in the disk. A double-wing structure (partly due to ADI processing) resembles a morphology newly observed in inclined disks. Given the cavity size in the visible (11 AU), the CO emission associated to the planet candidate 'c' might arise from within the circumstellar disk. We find an extended emission in the K band at the expected location of 'b'. The surrounding large-scale region is the brightest in scattered light. There is no sign of any disk gap associated to 'b'., Comment: Accepted by A&A. 13 pages, 5 figures

Published

2016

17. Synthesis, Crystal Structure and Properties of a Perovskite-Related Bismuth Phase, (NH4)3Bi2I9

Author

Sun, Shijing, Tominaka, Satoshi, Lee, Jung-Hoon, Xie, Fei, Bristowe, Paul D., and Cheetham, Anthony K.

Subjects

Condensed Matter - Materials Science

Abstract

Organic-inorganic halide perovskites, especially methylammonium lead halide, have recently led to a remarkable breakthrough in photovoltaic devices. However, due to the environmental and stability concerns of the heavy metal, lead, in these perovskite based solar cells, research in the non-lead perovskite structures have been attracting increasing attention. In this study, a layered perovskite-like architecture, (NH4)3Bi2I9, was prepared in solution and the structure was solved by single crystal X-ray diffraction. The results from DFT calculations showed the significant lone pair effect of the bismuth ion and the band gap was measured as around 2.04 eV, which is lower than the band gap of CH3NH3PbBr3. Conductivity measurement was also performed to examine the potential in the applications as an alternative to the lead containing perovskites.

Published

2015

18. Mapping the shores of the brown dwarf desert. IV. Ophiuchus

Author

Cheetham, Anthony C., Kraus, Adam L., Ireland, Michael J., Cieza, Lucas, Rizzuto, Aaron C., and Tuthill, Peter G.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We conduct a multiplicity survey of members of the rho Ophiuchus cloud complex with high resolution imaging to characterize the multiple star population of this nearby star forming region and investigate the relation between stellar multiplicity and star and planet formation. Our aperture masking survey reveals the presence of 5 new stellar companions beyond the reach of previous studies, but does not result in the detection of any new substellar companions. We find that 43+/-6% of the 114 stars in our survey have stellar mass companions between 1.3-780AU, while 7 (+8 -5)% host brown dwarf companions in the same interval. By combining this information with knowledge of disk-hosting stars, we show that the presence of a close binary companion (separation < 40 AU) significantly influences the lifetime of protoplanetary disks, a phenomenon previously seen in older star forming regions. At the ~1-2Myr age of our Ophiuchus members ~2/3 of close binary systems have lost their disks, compared to only ~30% of single stars and wide binaries. This has significant impact on the formation of giant planets, which are expected to require much longer than 1 Myr to form via core accretion and thus planets formed via this pathway should be rare in close binary systems., Comment: 17 pages, 8 figures, 4 tables. Accepted for publication in ApJ

Published

2015

19. Discovery of Seven Companions to Intermediate Mass Stars with Extreme Mass Ratios in the Scorpius-Centaurus Association

Author

Hinkley, Sasha, Kraus, Adam L., Ireland, Michael J., Cheetham, Anthony, Carpenter, John M., Tuthill, Peter, Lacour, Sylvestre, Evans, Thomas M., and Haubois, Xavier

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We report the detection of seven low mass companions to intermediate-mass stars (SpT B/A/F; $M$$\approx$1.5-4.5 solar masses) in the Scorpius-Centaurus Association using nonredundant aperture masking interferometry. Our newly detected objects have contrasts $\Delta L'$$\approx$4-6, corresponding to masses as low as $\sim$20 Jupiter masses and mass ratios of $q$$\approx$0.01-0.08, depending on the assumed age of the target stars. With projected separations $\rho$$\approx$10-30 AU, our aperture masking detections sample an orbital region previously unprobed by conventional adaptive optics imaging of intermediate mass Scorpius-Centaurus stars covering much larger orbital radii ($\approx$30-3000 AU). At such orbital separations, these objects resemble higher mass versions of the directly imaged planetary mass companions to the 10-30 Myr, intermediate-mass stars HR 8799, $\beta$ Pictoris, and HD95086. These newly discovered companions span the brown dwarf desert, and their masses and orbital radii provide a new constraint on models of the formation of low-mass stellar and substellar companions to intermediate-mass stars., Comment: Accepted for Publication in ApJ Letters

Published

2015

20. Gemini Planet imager Observational Calibrations X: Non-Redundant Masking on GPI

Author

Greenbaum, Alexandra Z., Cheetham, Anthony, Sivaramakrishnan, Anand, Tuthill, Peter, Norris, Barnaby, Pueyo, Laurent, Sadakuni, Naru, Rantakyrö, Fredrik, Hibon, Pascale, Goodsell, Stephen, Hartung, Markus, Serio, Andrew, Cardwell, Andrew, Poyneer, Lisa, Macintosh, Bruce, Savransky, Dmitry, Perrin, Marshall D., Wolff, Schuyler, Ingraham, Patrick, Thomas, Sandrine, and team, with the GPI

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

The Gemini Planet Imager (GPI) Extreme Adaptive Optics Coronograph contains an interferometric mode: a 10-hole non-redundant mask (NRM) in its pupil wheel. GPI operates at $Y, J, H$, and $K$ bands, using an integral field unit spectrograph (IFS) to obtain spectral data at every image pixel. NRM on GPI is capable of imaging with a half resolution element inner working angle at moderate contrast, probing the region behind the coronagraphic spot. The fine features of the NRM PSF can provide a reliable check on the plate scale, while also acting as an attenuator for spectral standard calibrators that would otherwise saturate the full pupil. NRM commissioning data provides details about wavefront error in the optics as well as operations of adaptive optics control without pointing control from the calibration system. We compare lab and on-sky results to evaluate systematic instrument properties and examine the stability data in consecutive exposures. We discuss early on-sky performance, comparing images from integration and tests with the first on-sky images, and demonstrate resolving a known binary. We discuss the status of NRM and implications for future science with this mode., Comment: 14 pages, 14 figures. Proceedings of the SPIE, 9147-135

Published

2014

21. A Demonstration of Wavefront Sensing and Mirror Phasing from the Image Domain

Author

Pope, Benjamin, Cvetojevic, Nick, Cheetham, Anthony, Martinache, Frantz, Norris, Barnaby, and Tuthill, Peter

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

In astronomy and microscopy, distortions in the wavefront affect the dynamic range of a high contrast imaging system. These aberrations are either imposed by a turbulent medium such as the atmosphere, by static or thermal aberrations in the optical path, or by imperfectly phased subapertures in a segmented mirror. Active and adaptive optics (AO), consisting of a wavefront sensor and a deformable mirror, are employed to address this problem. Nevertheless, the non-common-path between the wavefront sensor and the science camera leads to persistent quasi-static speckles that are difficult to calibrate and which impose a floor on the image contrast. In this paper we present the first experimental demonstration of a novel wavefront sensor requiring only a minor asymmetric obscuration of the pupil, using the science camera itself to detect high order wavefront errors from the speckle pattern produced. We apply this to correct errors imposed on a deformable microelectromechanical (MEMS) segmented mirror in a closed loop, restoring a high quality point spread function (PSF) and residual wavefront errors of order $\sim 10$ nm using 1600 nm light, from a starting point of $\sim 300$ nm in piston and $\sim 0.3$ mrad in tip-tilt. We recommend this as a method for measuring the non-common-path error in AO-equipped ground based telescopes, as well as as an approach to phasing difficult segmented mirrors such as on the \emph{James Webb Space Telescope} primary and as a future direction for extreme adaptive optics., Comment: 9 pages, 6 figures

Published

2014

22. Coupling of the Local Defect and Magnetic Structure of Wustite, Fe1-xO

Author

Saines, Paul J., Tucker, Matthew G., Keen, David A., Cheetham, Anthony K., and Goodwin, Andrew L.

Subjects

Condensed Matter - Materials Science, Condensed Matter - Disordered Systems and Neural Networks

Abstract

The local nuclear and magnetic structure of wustite, Fe1-xO, and the coupling between them, has been examined using reverse Monte Carlo refinements of variable-temperature neutron total scattering data. The results from this analysis suggest that the individual units in a tetrahedral defect cluster are connected along <110> vectors into a Koch-Cohen-like arrangement, with the majority of octahedral vacancies concentrated near these defects. Bond valence calculations indicate a change in the charge distribution on the cations with the charge on the tetrahedral interstitials increasing on cooling. The magnetic structure is more complex than previously thought, corresponding to a non-collinear spin arrangement described by a superposition of a condensed spin wave on the established type-II antiferromagnetic ordering. This leads to an architecture with four groups of cations each with different spin directions. The cations within the interstitial clusters appear to be weakly ferromagnetically coupled and their spins are correlated to the spins of the octahedral cations closest to them. This work not only provides further insight into the local structure of wustite but also a better understanding of the coupling between defect structures and magnetic and charge-ordering in complex materials., Comment: 9 pages, 8 figures

Published

2013

23. Science and Technology Progress at the Sydney University Stellar Interferometer

Author

Robertson, J. Gordon, Ireland, Michael J., Tango, William J., Tuthill, Peter G., Warrington, Benjamin A., Kok, Yitping, Rizzuto, Aaron C., Cheetham, Anthony, and Jacob, Andrew P.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

This paper presents an overview of recent progress at the Sydney University Stellar Interferometer (SUSI). Development of the third-generation PAVO beam combiner has continued. The MUSCA beam combiner for high-precision differential astrometry using visible light phase referencing is under active development and will be the subject of a separate paper. Because SUSI was one of the pioneering interferometric instruments, some of its original systems are old and have become difficult to maintain. We are undertaking a campaign of modernization of systems: (1) an upgrade of the Optical Path Length Compensator IR laser metrology counter electronics from a custom system which uses an obsolete single-board computer to a modern one based on an FPGA interfaced to a Linux computer - in addition to improving maintainability, this upgrade should allow smoother motion and higher carriage speeds; (2) the replacement of the aged single-board computer local controllers for the siderostats and the longitudinal dispersion compensator has been completed; (3) the large beam reducing telescope has been replaced with a pair of smaller units with separate accessible foci. Examples of scientific results are also included., Comment: 10 pages, 9 Figures

Published

2013

24. Structure and properties of an amorphous metal--organic framework

Author

Bennett, Thomas D., Goodwin, Andrew L., Dove, Martin T., Keen, David A., Tucker, Matthew G., Barney, Emma R., Soper, Alan K., Bithell, Erica G., Tan, Jin-Chong, and Cheetham, Anthony K.

Subjects

Condensed Matter - Materials Science

Abstract

We show that ZIF-4, a metal-organic framework (MOF) with a zeolitic structure, undergoes a crystal--amorphous transition on heating to 300 $^\circ$C. The amorphous form, which we term a-ZIF, is recoverable to ambient conditions or may be converted to a dense crystalline phase of the same composition by heating to 400 $^\circ$C. Neutron and X-ray total scattering data collected during the amorphization process are used as a basis for reverse Monte Carlo refinement of an atomistic model of the structure of a-ZIF. We show that the structure is best understood in terms of a continuous random network analogous to that of a-SiO$_2$. Optical microscopy, electron diffraction and nanoindentation measurements reveal a-ZIF to be an isotropic glass-like phase capable of plastic flow on its formation. Our results suggest an avenue for designing broad new families of amorphous and glass-like materials that exploit the chemical and structural diversity of MOFs., Comment: 4 pages, formatted for PRL

Published

2010

25. The role of static disorder in negative thermal expansion in ReO3

Author

Rodriguez, Efrain E., Llobet, Anna, Proffen, Thomas, Melot, Brent C., Seshadri, Ram, Littlewood, Peter B., and Cheetham, Anthony K.

Subjects

Condensed Matter - Materials Science

Abstract

Time-of-flight neutron powder diffraction and specific heat measurements were used to study the nature of thermal expansion in rhenium trioxide, an electrically conducting oxide with cubic symmetry. The temperature evolution of the lattice parameters show that ReO3 can exhibit negative thermal expansion at low temperatures and that the transition from negative to positive thermal expansion depends on sample preparation; the single crystal sample demonstrated the highest transition temperature, 300 K, and largest negative value for the coefficient of thermal expansion, alpha = -1.1(1)x 10^-6 K^-1. For the oxygen atoms, the atomic displacement parameters are strongly anisotropic even at 15 K, indicative of a large contribution of static disorder to the displacement parameters. Further inspection of the temperature evolution of the oxygen displacement parameters for different samples reveals that the static disorder contribution is greater for the samples with diminished NTE behavior. In addition, specific heat measurements show that ReO3 lacks the low energy Einstein-type modes seen in other negative thermal expansion oxides such as ZrW2O8., Comment: 6 pages, 5 figures

Published

2008

26. Local structural origins of the distinct electronic properties of Nb-substituted SrTiO$_3$ and BaTi$O_3$

Author

Page, Katharine, Kolodiazhnyi, Taras, Proffen, Thomas, Cheetham, Anthony K., and Seshadri, Ram

Subjects

Condensed Matter - Materials Science

Abstract

Near or less than 10% Nb substitution on the Ti site in perovskite SrTiO$_3$ results in metallic behavior, in contrast to what is seen in BaTiO$_3$. Given the nearly identical structure and electron counts of the two materials, the distinct ground states for low substitution have been a long-standing puzzle. Here we find from neutron studies of average and local structure, the subtle yet critical difference that we believe underpins the distinct electronic properties in these fascinating materials. While SrTi$_{0.875}$Nb_${0.125}$O$_3$ possesses a distorted non-cubic structure at 15 K, the BO$_6$ octahedra in the structure are regular. BaTi$_{0.875}$Nb$_{0.125}$O$_3$ on the other hand shows evidence for local cation off-centering whilst retaining a cubic structure., Comment: 4 pages, 5 figures

Published

2008

27. FINAL REPORT

Author

Cheetham, Anthony [Principal Investigator]

Published

2011

28. Behavior of Holocarbons in Zeolitic Materials

Author

Cheetham, Anthony

Published

2003