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168 results on '"BLAND, T. A."'

1. Acceleration-induced transport of quantum vortices in joined atomtronic circuits

Author

Chaika, A., Oliinyk, A. O., Yatsuta, I. V., Proukakis, N. P., Edwards, M., Yakimenko, A. I., and Bland, T.

Subjects
Condensed Matter - Quantum Gases, Quantum Physics
Abstract

Persistent currents--inviscid quantized flow around an atomic circuit--are a crucial building block of atomtronic devices. We investigate how acceleration influences the transfer of persistent currents between two density-connected, ring-shaped atomic Bose-Einstein condensates, joined by a tunable weak link that controls system topology. We find that the acceleration of this system modifies both the density and phase dynamics between the rings, leading to a bias in the periodic vortex oscillations studied in T. Bland et al., Phys. Rev. Research 4, 043171 (2022). Accounting for dissipation suppressing such vortex oscillations, the acceleration facilitates a unilateral vortex transfer to the leading ring. We analyze how this transfer depends on the weak-link amplitude, the initial persistent current configuration, and the acceleration strength and direction. Characterization of the sensitivity to these parameters paves the way for a new platform for acceleration measurements.

Published
2024

2. Excitations of a binary dipolar supersolid

Author

Kirkby, W., Lee, Au-Chen, Baillie, D., Bland, T., Ferlaino, F., Blakie, P. B., and Bisset, R. N.

Subjects
Condensed Matter - Quantum Gases
Abstract

We predict a rich excitation spectrum of a binary dipolar supersolid in a linear crystal geometry, where the ground state consists of two partially immiscible components with alternating, interlocking domains. We identify three Goldstone branches, each with first-sound, second-sound or spin-sound character. In analogy with a diatomic crystal, the resulting lattice has a two-domain primitive basis and we find that the crystal (first-sound-like) branch is split into optical and acoustic phonons. We also find a spin-Higgs branch that is associated with the supersolid modulation amplitude., Comment: 12 pages, 6 figures

Published
2023
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3. Spin rotons and supersolids in binary antidipolar condensates

Author

Kirkby, W., Bland, T., Ferlaino, F., and Bisset, R. N.

Subjects
Condensed Matter - Quantum Gases
Abstract

We present a theoretical study of a mixture of antidipolar and nondipolar Bose-Einstein condensates confined to an infinite tube. We predict the presence of a spin roton and its associated instability, which triggers a continuous unmodulated--to--supersolid phase transition. We characterize the phase diagram of the binary system, ranging from the quasi-1D to the radial Thomas-Fermi (elongated 3D) regimes. We also present the dynamic formation of supersolids following a quench from the uniform miscible phase, which maintains phase coherence across the system., Comment: 13 pages main text, 5 figures, submission to SciPost Physics Core

Published
2023
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4. The Road to Reintegration: Evaluating the Effectiveness of VA Healthcare in Vocational Rehabilitation and Employment Retention for Veterans with Mental Health and Substance Use Disorders

Author

Sprong ME, Hollender H, Blankenberger B, Rumrill S, Lee YS, Bland T, Bailey J, Weber K, Gilbert J, Kriz K, and Buono FD

Subjects
substance use disorders, mental health, veterans affairs, health administration, veterans, vocational rehabilitation, treatment access, Public aspects of medicine, RA1-1270
Abstract

Matthew E Sprong,1,2 Heaven Hollender,3 Bob Blankenberger,2 Stuart Rumrill,4 Yu-Sheng Lee,5 Travis Bland,2 Jeremiah Bailey,6 Kenneth Weber,1 James Gilbert,1 Ken Kriz,2 Frank D Buono7 1Edward Hines Jr. VA Medical Center, Hines, IL, USA; 2University of Illinois Springfield, School of Public Management and Policy, Springfield, IL, USA; 3Indiana University - Indianapolis, School of Health & Human Services, Indianapolis, IN, USA; 4Univerity of Illinois Urbana-Champaign, Department of Kinesiology and Community Health, Champaign, IL, USA; 5University of Illinois Springfield, School of Integrated Sciences, Sustainability, and Public Health, Springfield, IL, USA; 6Florida Agricultural and Mechanical University, Department of Sociology and Criminal Justice, Tallahassee, FL, USA; 7Yale School of Medicine, New Haven, CT, USACorrespondence: Matthew E Sprong, Email mspro2@uis.eduIntroduction: Veterans diagnosed with mental health and/or substance use disorders (SUD) often face significant barriers to employment and reintegration into civilian society. In the current study, we investigated whether how the VA healthcare system for mental health and/or SUD treatment predicted program enrollment into vocational rehabilitation, simultaneous mental health and/or SUD treatment while enrolled in vocational rehabilitation predicted employment at discharge, and mental health and/or SUD treatment continues and employment remain 60-days-post-vocational-rehabilitation discharge.Methods: An outcome-based, summative program evaluation design to measure quality assurance of vocational rehabilitation services provided to 402 veteran patients enrolled in a VA healthcare located within the Great Lakes Health Care System – Veterans Integrated Services Network.Results: Multivariable logistic regression analyses showed psychological empowerment (confidence in one’s ability to work or find work) is a significant factor determining whether a veteran is enrolled in the vocational rehabilitation program, prior mental health treatment (yes/no) and frequency of mental health treatment did not predict program enrollment, and frequency of SUD VA system treatment 60 days prior did not predict program enrollment. Other findings showed that simultaneous mental health and/or SUD treatment while enrolled in vocational rehabilitation did not predict employment at discharge, and employment at discharge did not predict continued mental health and/or SUD treatment post-discharge from vocational rehabilitation. However, veterans with both SUD and mental health and continued mental health treatment were less likely to be employed.Conclusion: Utilization of real-world program evaluation data from an actual VHA vocational rehabilitation program enhances the study’s ecological validity, offering practical implications for policymakers and practitioners in the field. The findings support the importance of veterans enrolling in mental health and/or SUD treatment simultaneously while enrolled in vocational rehabilitation services, as integrating vocational rehabilitation with mental health and SUD treatment services can lead to improved vocational and health outcomes for veterans (eg, development of targeted interventions to support veterans’ successful reintegration into the workforce and society).Keywords: substance use disorders, mental health, veterans affairs, health administration, veterans, vocational rehabilitation, treatment access

Published
2024

5. Strongly dipolar gases in a one-dimensional lattice: Bloch oscillations and matter-wave localization

Author

Natale, G., Bland, T., Gschwendtner, S., Lafforgue, L., Grün, D. S., Patscheider, A., Mark, M. J., and Ferlaino, F.

Subjects
Condensed Matter - Quantum Gases, Quantum Physics
Abstract

Three-dimensional quantum gases of strongly dipolar atoms can undergo a crossover from a dilute gas to a dense macrodroplet, stabilized by quantum fluctuations. Adding a one-dimensional optical lattice creates a platform where quantum fluctuations are still unexplored, and a rich variety of new phases may be observable. We employ Bloch oscillations as an interferometric tool to assess the role quantum fluctuations play in an array of quasi-two-dimensional Bose-Einstein condensates. Long-lived oscillations are observed when the chemical potential is balanced between sites, in a region where a macrodroplet is extended over several lattice sites. Further, we observe a transition to a state that is localized to a single lattice plane$-$driven purely by interactions$-$marked by the disappearance of the interference pattern in the momentum distribution. To describe our observations, we develop a discrete one-dimensional extended Gross-Pitaevskii theory, including quantum fluctuations and a variational approach for the on-site wavefunction. This model is in quantitative agreement with the experiment, revealing the existence of single and multisite macrodroplets, and signatures of a two-dimensional bright soliton., Comment: 12 pages, 4+4 figures

Published
2022
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6. Persistent current oscillations in a double-ring quantum gas

Author

Bland, T., Yatsuta, I. V., Edwards, M., Nikolaieva, Y. O., Oliinyk, A. O., Yakimenko, A. I., and Proukakis, N. P.

Subjects
Condensed Matter - Quantum Gases
Abstract

Vorticity in closed quantum fluid circuits is known to arise in the form of persistent currents. In this work, we develop a method to engineer transport of the quantized vorticity between density-coupled ring-shaped atomic Bose-Einstein condensates in experimentally accessible regimes. Introducing a tunable weak link between the rings, we observe and characterize the controllable periodic transfer of the current and investigate the role of temperature on suppressing these oscillations via a range of complementary state-of-the-art numerical methods. Our setup paves the way for precision measurements of local acceleration and rotation., Comment: 12 pages, 6 figures

Published
2022
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7. Catalyzation of supersolidity in binary dipolar condensates

Author

Scheiermann, D., Ardila, L. A. Peña, Bland, T., Bisset, R. N., and Santos, L.

Subjects
Condensed Matter - Quantum Gases
Abstract

Breakthrough experiments have newly explored the fascinating physics of dipolar quantum droplets and supersolids. The recent realization of dipolar mixtures opens further intriguing possibilities. We show that under rather general conditions, the presence of a second component catalyzes droplet nucleation and supersolidity in an otherwise unmodulated condensate. Droplet catalyzation in miscible mixtures, which may occur even for a surprisingly small impurity doping, results from a local roton instability triggered by the doping-dependent modification of the effective dipolar strength. The catalyzation mechanism may trigger the formation of a two-fluid supersolid, characterized by a generally different superfluid fraction of each component, which opens intriguing possibilities for the future study of spin physics in dipolar supersolids., Comment: 10 pages

Published
2022
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8. Roadmap on Atomtronics: State of the art and perspective

Author

Amico, L., Boshier, M., Birkl, G., Minguzzi, A., Miniatura, C., Kwek, L. -C., Aghamalyan, D., Ahufinger, V., Anderson, D., Andrei, N., Arnold, A. S., Baker, M., Bell, T. A., Bland, T., Brantut, J. P., Cassettari, D., Chetcuti, W. J., Chevy, F., Citro, R., De Palo, S., Dumke, R., Edwards, M., Folman, R., Fortagh, J., Gardiner, S. A., Garraway, B. M., Gauthier, G., Günther, A., Haug, T., Hufnagel, C., Keil, M., von Klitzing, W., Ireland, P., Lebrat, M., Li, W., Longchambon, L., Mompart, J., Morsch, O., Naldesi, P., Neely, T. W., Olshanii, M., Orignac, E., Pandey, S., Pérez-Obiol, A., Perrin, H., Piroli, L., Polo, J., Pritchard, A. L., Proukakis, N. P., Rylands, C., Rubinsztein-Dunlop, H., Scazza, F., Stringari, S., Tosto, F., Trombettoni, A., Victorin, N., Wilkowski, D., Xhani, K., and Yakimenko, A.

Subjects
Condensed Matter - Quantum Gases, Quantum Physics
Abstract

Atomtronics deals with matter-wave circuits of ultra-cold atoms manipulated through magnetic or laser-generated guides with different shapes and intensities. In this way, new types of quantum networks can be constructed, in which coherent fluids are controlled with the know-how developed in the atomic and molecular physics community. In particular, quantum devices with enhanced precision, control and flexibility of their operating conditions can be accessed. Concomitantly, new quantum simulators and emulators harnessing on the coherent current flows can also be developed. Here, we survey the landscape of atomtronics-enabled quantum technology and draw a roadmap for the field in the near future. We review some of the latest progresses achieved in matter-wave circuits design and atom-chips. Atomtronic networks are deployed as promising platforms for probing many-body physics with a new angle and a new twist. The latter can be done both at the level of equilibrium and non-equilibrium situations. Numerous relevant problems in mesoscopic physics, like persistent currents and quantum transport in circuits of fermionic or bosonic atoms, are studied through a new lens. We summarize some of the atomtronics quantum devices and sensors. Finally, we discuss alkali-earth and Rydberg atoms as potential platforms for the realization of atomtronic circuits with special features., Comment: 113 latex pages, 83 figs. To be published in AVS Quantum Science

Published
2020
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9. Instability of Rotationally Tuned Dipolar Bose-Einstein Condensates

Author

Prasad, S. B., Bland, T., Mulkerin, B. C., Parker, N. G., and Martin, A. M.

Subjects
Quantum Physics, Condensed Matter - Quantum Gases
Abstract

The possibility of effectively inverting the sign of the dipole-dipole interaction, by fast rotation of the dipole polarization, is examined within a harmonically trapped dipolar Bose-Einstein condensate. Our analysis is based on the stationary states in the Thomas-Fermi limit, in the corotating frame, as well as direct numerical simulations in the Thomas-Fermi regime, explicitly accounting for the rotating polarization. The condensate is found to be inherently unstable due to the dynamical instability of collective modes. This ultimately prevents the realization of robust and long-lived rotationally tuned states. Our findings have major implications for experimentally accessing this regime., Comment: 9 pages with 5 figures

Published
2018
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10. Quantum ferrofluid turbulence

Author

Bland, T., Stagg, G. W., Galantucci, L., Baggaley, A. W., and Parker, N. G.

Subjects
Condensed Matter - Quantum Gases
Abstract

We study the elementary characteristics of turbulence in a quantum ferrofluid through the context of a dipolar Bose gas condensing from a highly non-equilibrium thermal state. Our simulations reveal that the dipolar interactions drive the emergence of polarized turbulence and density corrugations. The superfluid vortex lines and density fluctuations adopt a columnar or stratified configuration, depending on the sign of the dipolar interactions, with the vortices tending to form in the low density regions to minimize kinetic energy. When the interactions are dominantly dipolar, the decay of vortex line length is enhanced, closely following a $t^{-3/2}$ behaviour. This system poses exciting prospects for realizing stratified quantum turbulence and new levels of generating and controlling turbulence using magnetic fields., Comment: to be published in Phys. Rev. Lett

Published
2017
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11. Anomalous oscillations of dark solitons in trapped dipolar condensates

Author

Bland, T., Pawlowski, K., Edmonds, M. J., Rzazewski, K., and Parker, N. G.

Subjects
Condensed Matter - Quantum Gases
Abstract

Thanks to their immense purity and controllability, dipolar Bose-Einstein condensates are an exemplar for studying fundamental non-local nonlinear physics. Here we show that a family of fundamental nonlinear waves - the dark solitons - are supported in trapped quasi-one-dimensional dipolar condensates and within reach of current experiments. Remarkably, the oscillation frequency of the soliton is strongly dependent on the atomic interactions, in stark contrast to the non-dipolar case. The failure of a particle analogy, so successful for dark solitons in general, to account for this behaviour implies that these structures are inherently extended and non-particle-like. These highly-sensitive waves may act as mesoscopic probes of the underlying quantum matter field., Comment: 6 pages, 4 figures

Published
2016
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12. Engineering Bright Matter-Wave Solitons of Dipolar Condensates

Author

Edmonds, M. J., Bland, T., Doran, R., and Parker, N. G.

Subjects
Condensed Matter - Quantum Gases
Abstract

We present a comprehensive analysis of the form and interaction of dipolar bright solitons across the full parameter space afforded by dipolar Bose-Einstein condensates, revealing the rich behaviour introduced by the non-local nonlinearity. Working within an effective one-dimensional description, we map out the existence of the soliton solutions and show three collisional regimes: free collisions, bound state formation and soliton fusion. Finally, we examine the solitons in their full three-dimensional form through a variational approach; along with regimes of instability to collapse and runaway expansion, we identify regimes of stability which are accessible to current experiments., Comment: 10 pages, 5 figures

Published
2016
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13. Exploring the Stability and Dynamics of Dipolar Matter-Wave Dark Solitons

Author

Edmonds, M. J., Bland, T., O'Dell, D. H. J., and Parker, N. G.

Subjects
Condensed Matter - Quantum Gases
Abstract

We study the stability, form and interaction of single and multiple dark solitons in quasi-one-dimensional dipolar Bose-Einstein condensates. The solitons are found numerically as stationary solutions in the moving frame of a non-local Gross Pitaevskii equation, and characterized as a function of the key experimental parameters, namely the ratio of the dipolar atomic interactions to the van der Waals interactions, the polarization angle and the condensate width. The solutions and their integrals of motion are strongly affected by the phonon and roton instabilities of the system. Dipolar matter-wave dark solitons propagate without dispersion, and collide elastically away from these instabilities, with the dipolar interactions contributing an additional repulsion or attraction to the soliton-soliton interaction. However, close to the instabilities, the collisions are weakly dissipative., Comment: 13 pages, 9 figures

Published
2016
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14. Controllable non-local interactions between dark solitons in dipolar condensates

Author

Bland, T., Edmonds, M. J., Proukakis, N. P., Martin, A. M., O'Dell, D. H. J., and Parker, N. G.

Subjects
Condensed Matter - Quantum Gases, Physics - Atomic Physics
Abstract

We study the family of static and moving dark solitons in quasi-one-dimensional dipolar Bose-Einstein condensates, exploring their modified form and interactions. The density dip of the soliton acts as a giant anti-dipole which adds a non-local contribution to the conventional local soliton-soliton interaction. We map out the stability diagram as a function of the strength and polarization direction of the atomic dipoles, identifying both roton and phonon instabilities. Away from these instabilities, the solitons collide elastically. Varying the polarization direction relative to the condensate axis enables tuning of this non-local interaction between repulsive and attractive; the latter case supports unusual dark soliton bound states. Remarkably, these bound states are themselves shown to behave like solitons, emerging unscathed from collisions with each other., Comment: 6 pages, 5 figures

Published
2015
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15. Geometric distortion of area in medical ultrasound images

Author

Bland, T., Tong, J., Ward, B., and Parker, N. G.

Subjects
Physics - Medical Physics
Abstract

Medical ultrasound scanners are typically calibrated to the soft tissue average of 1540 m s$^{-1}$. In regions of different sound speed, for example, organs and tumours, the $B$-scan image then becomes a distortion of the true tissue cross-section, due to the misrepresentation of length and refraction. To quantify this distortion we develop a general geometric ray model for an object with an atypical speed of sound embedded in an ambient medium. We analyse the ensuing area distortion for circular and elliptical objects, mapping it out as a function of the key parameters, including the speed of sound mismatch, the object size and its elongation. We find that the area distortion can become significant, even for small-scale speed of sound mismatches. Our findings are verified by ultrasound imaging of a test object., Comment: Reduced in length, modified title

Published
2015
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22. Roadmap on Atomtronics: State of the art and perspective

Author

Amico, L., primary, Boshier, M., additional, Birkl, G., additional, Minguzzi, A., additional, Miniatura, C., additional, Kwek, L.-C., additional, Aghamalyan, D., additional, Ahufinger, V., additional, Anderson, D., additional, Andrei, N., additional, Arnold, A. S., additional, Baker, M., additional, Bell, T. A., additional, Bland, T., additional, Brantut, J. P., additional, Cassettari, D., additional, Chetcuti, W. J., additional, Chevy, F., additional, Citro, R., additional, De Palo, S., additional, Dumke, R., additional, Edwards, M., additional, Folman, R., additional, Fortagh, J., additional, Gardiner, S. A., additional, Garraway, B. M., additional, Gauthier, G., additional, Günther, A., additional, Haug, T., additional, Hufnagel, C., additional, Keil, M., additional, Ireland, P., additional, Lebrat, M., additional, Li, W., additional, Longchambon, L., additional, Mompart, J., additional, Morsch, O., additional, Naldesi, P., additional, Neely, T. W., additional, Olshanii, M., additional, Orignac, E., additional, Pandey, S., additional, Pérez-Obiol, A., additional, Perrin, H., additional, Piroli, L., additional, Polo, J., additional, Pritchard, A. L., additional, Proukakis, N. P., additional, Rylands, C., additional, Rubinsztein-Dunlop, H., additional, Scazza, F., additional, Stringari, S., additional, Tosto, F., additional, Trombettoni, A., additional, Victorin, N., additional, Klitzing, W. von, additional, Wilkowski, D., additional, Xhani, K., additional, and Yakimenko, A., additional

Published
2021
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23. Roadmap on Atomtronics

Author

Amico, L., Boshier, M., Birkl, G., Minguzzi, A., Miniatura, C., Kwek, L. -C., Aghamalyan, D., Ahufinger, V., Andrei, N., Arnold, A. S., Baker, M., Bell, T. A., Bland, T., Brantut, J. P., Cassettari, D., Chevy, F., Citro, R., De Palo, S., Dumke, R., Edwards, M., Folman, R., Fortagh, J., Gardiner, S. A., Garraway, B. M., Gauthier, G., Günther, A., Haug, T., Hufnagel, C., Keil, M., Von Klitzing, W., Ireland, P., Lebrat, M., Li, W., Longchambon, L., Mompart, J., Morsch, O., Naldesi, P., Neely, T. W., Olshanii, M., Orignac, E., Pandey, S., Pérez-Obiol, A., Perrin, Hélène, Piroli, L., Polo, J., Pritchard, A. L., Proukakis, N. P., Rylands, C., Rubinsztein-Dunlop, H., Scazza, F., Stringari, S., Tosto, F., Trombettoni, A., Victorin, N., Wilkowski, D., Xhani, K., Yakimenko, A., Laboratoire de Physique des Lasers (LPL), and Université Paris 13 (UP13)-Institut Galilée-Université Sorbonne Paris Cité (USPC)-Centre National de la Recherche Scientifique (CNRS)

Subjects
[PHYS.COND.GAS]Physics [physics]/Condensed Matter [cond-mat]/Quantum Gases [cond-mat.quant-gas], Physics::Atomic Physics
Abstract

102 latex pages, 82 figs. Chapter on alkaline-earth atoms added; Atomtronics is an emerging field of quantum technology dealing with matter-wave circuits of ultra-cold atoms manipulated in magnetic or laser-generated guides of different shapes and intensity. Atomtronic circuits are promised to define quantum networks of new types in which coherent fluids can be feasibly controlled with the know how of the atomic and molecular physics quantum technology. This way, atomtronics can provide the basis for new quantum devices with enhanced precision, control and flexibility. At the same time, new quantum simulators and emulators harnessing coherent current flows can be defined. Here, we survey the atomtronics-enabled quantum technology and we draw a roadmap on the field for the years to come. The latest progress achieved in matter-wave circuits design and atom-chips are reviewed. Atomtronic networks have been used as platforms to study many-body physics in a new way, both at equilibrium and at non-equilibrium. Relevant problems in mesoscopic physics, like persistent currents and quantum transport in circuits of fermionic or bosonic atoms, have been studied with a new twist. We discuss the state of the art and the perspectives for the quantum devices and sensors implied by coherent matter-wave physics principles. Finally, we discuss alkali-earth and Rydberg atoms as great potential platforms for the realization of atomtronic circuits of a new type.

Published
2020

28. Instability of Rotationally Tuned Dipolar Bose-Einstein Condensates

Author

Prasad, SB, Bland, T, Mulkerin, BC, Parker, NG, Martin, AM, Prasad, SB, Bland, T, Mulkerin, BC, Parker, NG, and Martin, AM

Abstract

The possibility of effectively inverting the sign of the dipole-dipole interaction, by fast rotation of the dipole polarization, is examined within a harmonically trapped dipolar Bose-Einstein condensate. Our analysis is based on the stationary states in the Thomas-Fermi limit, in the corotating frame, as well as direct numerical simulations in the Thomas-Fermi regime, explicitly accounting for the rotating polarization. The condensate is found to be inherently unstable due to the dynamical instability of collective modes. This ultimately prevents the realization of robust and long-lived rotationally tuned states. Our findings have major implications for experimentally accessing this regime.

Published
2019

29. Vortex lattice formation in dipolar Bose-Einstein condensates via rotation of the polarization

Author

Prasad, SB, Bland, T, Mulkerin, BC, Parker, NG, Martin, AM, Prasad, SB, Bland, T, Mulkerin, BC, Parker, NG, and Martin, AM

Abstract

The behavior of a harmonically trapped dipolar Bose-Einstein condensate with its dipole moments rotating at angular frequencies lower than the transverse harmonic trapping frequency is explored in the co-rotating frame. We obtain semi-analytical solutions for the stationary states in the Thomas-Fermi limit of the corresponding dipolar Gross-Pitaevskii equation and utilize linear stability analysis to elucidate a phase diagram for the dynamical stability of these stationary solutions with respect to collective modes. These results are verified via direct numerical simulations of the dipolar Gross-Pitaevskii equation, which demonstrate that dynamical instabilities of the co-rotating stationary solutions lead to the seeding of vortices that eventually relax into a triangular lattice configuration. Our results illustrate that rotation of the dipole polarization represents a new route to vortex formation in dipolar Bose-Einstein condensates.

Published
2019

49. The 15 kW sub e (nominal) solar thermal electric power conversion concept definition study: Steam Rankine turbine system

Author

Bland, T. J

Subjects
Energy Production And Conversion
Abstract

A study to define the performance and cost characteristics of a solar powered, steam Rankine turbine system located at the focal point of a solar concentrator is presented. A two stage re-entry turbine with reheat between stages, which has an efficiency of 27% at a turbine inlet temperature of 732 C was used. System efficiency was defined as 60 Hertz electrical output divided by absorbed thermal input in the working fluid. Mass production costs were found to be approximately 364 dollars/KW.

Published
1979

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