Presentation is loading. Please wait.

Presentation is loading. Please wait.

Report on some of the UNEDF work performed by the UW centered group A. Bulgac, Y.-L. (Alan) Luo, P. Magierski, K.J. Roche, I. Stetcu, S. Yoon J.E. Drut,

Published byBenedict Hudson Modified over 8 years ago

Similar presentations

Presentation on theme: "Report on some of the UNEDF work performed by the UW centered group A. Bulgac, Y.-L. (Alan) Luo, P. Magierski, K.J. Roche, I. Stetcu, S. Yoon J.E. Drut,"— Presentation transcript:

1 Report on some of the UNEDF work performed by the UW centered group A. Bulgac, Y.-L. (Alan) Luo, P. Magierski, K.J. Roche, I. Stetcu, S. Yoon J.E. Drut, M.M. Forbes, G. Wlazlowski (none UW UNEDF funded) See also talks of P. Magierski, K.J. Roche and I. Stetcu

2 One of the last year’s UNEDF achievements: Two independent ab initio calculations of the pairing gap in dilute fermion matter

3 Joaquin also received the 2009 Henderson prize for the best PhD thesis in the UW Department of Physics

4 P. Magierski, G. Wlazlowski, A. Bulgac and J.E. Drut The ab initio calculation of the spectral weight function, quasi-particle spectrum and its properties at finite T’s.

5 Bulgac and Yoon, Phys. Rev. Lett. 102, 085302 (2009) All these modes have a very low frequency below the pairing gap All these modes have a very low frequency below the pairing gap and a very large amplitude and excitation energy as well None of these modes can be described either within Quantum Hydrodynamics None of these modes can be described either within Quantum Hydrodynamics or Landau-Ginzburg like approaches

6 Bulgac and Yoon, Phys. Rev. Lett. 102, 085302 (2009) 3D unitary Fermi gas confined to a 1D HO potential well (pancake) Black solid line – Time dependence of the cloud radius Black dashed line – Time dependence of the quadrupole moment of momentum distribution New qualitative excitation mode of a superfluid Fermi system (non-spherical Fermi momentum distribution)

7 Vortex generation and dynamics (Alan Luo) See movies at http://www.phys.washington.edu/groups/qmbnt/vortices_movies.html Ionel Stetcu will show tomorrow night movies of real time 3D dynamics of superfluid nuclei

8 A refined EOS for spin unbalanced systems Black line: normal part of the energy density Blue points: DMC calculations for normal state, Lobo et al, PRL 97, 200403 (2006) Gray crosses: experimental EOS due to Shin, Phys. Rev. A 77, 041603(R) (2008) Bulgac and Forbes, Phys. Rev. Lett. 101, 215301 (2008) Red line: Larkin-Ovchinnikov phase

9 A Unitary Fermi Supersolid: the Larkin-Ovchinnikov phase the Larkin-Ovchinnikov phase Bulgac and Forbes Phys. Rev. Lett. 101, 215301 (2008)

10 Summary of results: Implemented nuclear version of the TD-SLDA code Implemented nuclear version of the TD-SLDA code Implemented the initial conditions into TD-SLDA, for now from HFBRAD only Implemented the initial conditions into TD-SLDA, for now from HFBRAD only Performed extensive testing of the TD-SLDSA code under 1D, 2D and 3D conditions Performed extensive testing of the TD-SLDSA code under 1D, 2D and 3D conditions Parallel version of the code scales essentially perfectly (see talk of Kenny Roche) on Parallel version of the code scales essentially perfectly (see talk of Kenny Roche) on various architectures Developed a 1D and 2D DVR solvers, and the 3D solver is close to completion (see Developed a 1D and 2D DVR solvers, and the 3D solver is close to completion (see talk of P. Magierski) Established a number of new physical results: Higgs pairing mode in unitary gas, Established a number of new physical results: Higgs pairing mode in unitary gas, unitary Fermi supersolid, pseudo-gap (2 published PRLs and one submitted) Remainder of year 3 Extensive testing of the TD-SLDA code, optimization, generate a C version of the Extensive testing of the TD-SLDA code, optimization, generate a C version of the nuclear code, extensive use of NERSC and ORNL computers Further optimization (and extension) of 2D and 3D solvers Further optimization (and extension) of 2D and 3D solvers Apply the TD-SLDA code to a number of physical situations (Coulomb excitation, Apply the TD-SLDA code to a number of physical situations (Coulomb excitation, Collective states, LACM, Vortex dynamics, …) Year 4 (and year 5) Our major challenge is now the generation and implementation of correct and Our major challenge is now the generation and implementation of correct and accurate initial conditions for TD-SLDA code. Study various EDFs for neutron droplets, dilute fermion systems and nuclear Study various EDFs for neutron droplets, dilute fermion systems and nuclearsystems

11 What aspects of our work require HPC? 2D and 3D solvers, large dense eigenvalue problems 2D and 3D solvers, large dense eigenvalue problems TD-SLDA it will easily fill up Cray XT5 and larger systems TD-SLDA it will easily fill up Cray XT5 and larger systems Interest to other physicists Both (A)SLDA and TD-SLDA are of great to condensed matter studies, structure and dynamics of neutron star crust, cold atoms, … apart from relevance to nuclear dynamics Showcase results? 3D real time nuclear superfluid dynamics 3D real time nuclear superfluid dynamics Vortex generation and dynamics in real time in 2D and 3D, emergence of Vortex generation and dynamics in real time in 2D and 3D, emergence of quantum turbulence, elucidation of the pinning and de-pinning vortex mechanism

Download ppt "Report on some of the UNEDF work performed by the UW centered group A. Bulgac, Y.-L. (Alan) Luo, P. Magierski, K.J. Roche, I. Stetcu, S. Yoon J.E. Drut,"

Similar presentations

Spectroscopy at the Particle Threshold H. Lenske 1.

Spectroscopy at the Particle Threshold H. Lenske 1.
Rotations and quantized vortices in Bose superfluids

Rotations and quantized vortices in Bose superfluids
Emergent Majorana Fermion in Cavity QED Lattice

Emergent Majorana Fermion in Cavity QED Lattice
Dynamics of Vibrational Excitation in the C 60 - Single Molecule Transistor Aniruddha Chakraborty Department of Inorganic and Physical Chemistry Indian.

Dynamics of Vibrational Excitation in the C 60 - Single Molecule Transistor Aniruddha Chakraborty Department of Inorganic and Physical Chemistry Indian.
Universal Thermodynamics of a Unitary Fermi gas Takashi Mukaiyama University of Electro-Communications.

Universal Thermodynamics of a Unitary Fermi gas Takashi Mukaiyama University of Electro-Communications.
Universality in ultra-cold fermionic atom gases. with S. Diehl, H.Gies, J.Pawlowski S. Diehl, H.Gies, J.Pawlowski.

Universality in ultra-cold fermionic atom gases. with S. Diehl, H.Gies, J.Pawlowski S. Diehl, H.Gies, J.Pawlowski.
Magnetic quantum criticality Transparencies online at Subir Sachdev.

Magnetic quantum criticality Transparencies online at Subir Sachdev.
Equilibrium dynamics of entangled states near quantum critical points Talk online at Physical Review Letters 78, 843.

Equilibrium dynamics of entangled states near quantum critical points Talk online at Physical Review Letters 78, 843.
Aurel Bulgac University of Washington, Seattle, WA Collaborators: Yuan Lung (Alan) Luo (Seattle) Piotr Magierski (Warsaw/Seattle) Piotr Magierski (Warsaw/Seattle)

Aurel Bulgac University of Washington, Seattle, WA Collaborators: Yuan Lung (Alan) Luo (Seattle) Piotr Magierski (Warsaw/Seattle) Piotr Magierski (Warsaw/Seattle)
University of Trento INFM. BOSE-EINSTEIN CONDENSATION IN TRENTO SUPERFLUIDITY IN TRAPPED GASES University of Trento Inauguration meeting, Trento 14-15.

University of Trento INFM. BOSE-EINSTEIN CONDENSATION IN TRENTO SUPERFLUIDITY IN TRAPPED GASES University of Trento Inauguration meeting, Trento
Dynamics of Quantum- Degenerate Gases at Finite Temperature Brian Jackson Inauguration meeting and Lev Pitaevskii’s Birthday: Trento, March 14-15 University.

Dynamics of Quantum- Degenerate Gases at Finite Temperature Brian Jackson Inauguration meeting and Lev Pitaevskii’s Birthday: Trento, March University.
Static Properties and Dynamics of Strongly Interacting Many Fermion Systems Aurel Bulgac University of Washington, Seattle, USA Collaborators: M.M. Forbes,

Static Properties and Dynamics of Strongly Interacting Many Fermion Systems Aurel Bulgac University of Washington, Seattle, USA Collaborators: M.M. Forbes,
Equation of State of Neutron-Rich Matter in the Relativistic Mean-Field Approach Farrukh J. Fattoyev My TAMUC collaborators: B.-A. Li, W. G. Newton My.

Equation of State of Neutron-Rich Matter in the Relativistic Mean-Field Approach Farrukh J. Fattoyev My TAMUC collaborators: B.-A. Li, W. G. Newton My.
Universal thermodynamics of a strongly interacting Fermi gas Hui Hu 1,2, Peter D. Drummond 2, and Xia-Ji Liu 2 1.Physics Department, Renmin University.

Universal thermodynamics of a strongly interacting Fermi gas Hui Hu 1,2, Peter D. Drummond 2, and Xia-Ji Liu 2 1.Physics Department, Renmin University.
Ultracold Fermi gases University of Trento BEC Meeting, Trento, 2-3 May 2006 INFM-CNR Sandro Stringari.

Ultracold Fermi gases University of Trento BEC Meeting, Trento, 2-3 May 2006 INFM-CNR Sandro Stringari.
Current “Hot” Areas of Research in Physics. Mature Physics and Hot Physics.

Current “Hot” Areas of Research in Physics. Mature Physics and Hot Physics.
Ultracold Atoms Meet Quantum Gravity Boris V. Svistunov, University of Massachusetts Amherst, PHY 1314735 Little is known precisely about overdamped dynamics.

Ultracold Atoms Meet Quantum Gravity Boris V. Svistunov, University of Massachusetts Amherst, PHY Little is known precisely about overdamped dynamics.
Han Pu Rice University Collaborators: Lei Jiang (NIST/JQI) Hui Hu, Xia-Ji Liu (Swinburne) Yan Chen (Fudan U.) 2013 Hangzhou Workshop on Quantum Matter.

Han Pu Rice University Collaborators: Lei Jiang (NIST/JQI) Hui Hu, Xia-Ji Liu (Swinburne) Yan Chen (Fudan U.) 2013 Hangzhou Workshop on Quantum Matter.
Operator product expansion and sum rule approach to the unitary Fermi gas Schladming Winter School “Intersection Between QCD and Condensed Matter” 05.03.2015.

Operator product expansion and sum rule approach to the unitary Fermi gas Schladming Winter School “Intersection Between QCD and Condensed Matter”
Strongly interacting scale-free matter in cold atoms Yusuke Nishida March 12, MIT Faculty Lunch.

Strongly interacting scale-free matter in cold atoms Yusuke Nishida March 12, MIT Faculty Lunch.

Similar presentations

Ads by Google