Friday, April 18, 2014, 4:00 am

Hosted by: V. Litvinenko

"When a low energy electron beam crosses from top of a storage ring electron bunch, its coulomb force will kick a short slice from the core of the storage ring electron bunch. The separated slices, when passing through an undulator, will radiate ultra-short x-ray pulses at about 160fs. In the presentation, I will talk about the new approach to generate ultra-short x-ray pulses of the order of 100fs pulse length by electron beam slicing, and I will discuss our from start to end design of the electron beam slicing method in NSLS-II which includes the design of low energy bunch compressor, the design of the interaction of the linac bunch and the ring bunch and the separation design of the synchrotron radiation of the core and satellite."

Friday, April 18, 2014, 10:00 am

Friday, April 18, 2014, 12:00 pm

Hosted by: BERA AAAG

Friday, April 18, 2014, 2:00 pm

Hosted by: Bjoern Schenke

We introduce a "renormalized entanglement entropy" which is intrinsically UV finite and is most sensitive to the degrees of freedom at the scale of the size R of the entangled region. We illustrated the power of this construction by showing that the qualitative behavior of the entanglement entropy for a non-Fermi liquid can be obtained by simple dimensional analysis. The functional dependence of the "renormalized entanglement entropy" on R can be interpreted as describing the renormalization group flow of the entanglement entropy with distance scale. The corresponding quantity for a spherical region in the vacuum, has some particularly interesting properties. For example in three (spacetime) dimensions, it is always monotonic along RG flows, and provides a measure of the number of degrees of freedom of a system at scale R.

Tuesday, April 22, 2014, 12:00 pm

Tuesday, April 22, 2014, 3:30 pm

Hosted by: Peter Petreczky

Hadron physics is unique at the forefront of science in tackling a problem whose fundamental degrees of freedom have never been directly observed. This presentation will describe some of the opportunities and challenges presented by the next decade — with an upgrade at Jefferson Lab, fixed target experiments at FermiLab and worldwide discussions about an electron ion collider.

Tuesday, April 22, 2014, 5:00 pm

Hosted by: BERA African American Affinity Group

Second Annual AAAG STEM Scholarship Reception. Five local high school students who plan to pursue STEM careers in college will be honored. Refreshments will be served. RSVP to Patrice Greenwood at greenwood@bnl.gov.

Wednesday, April 23, 2014, 10:00 am

To join Play Group, go to: meetup.com/BNL-playgroup Tours, snacks, information and general socialzing! All are welcome!

Wednesday, April 23, 2014, 12:00 pm

Thinking of Buying or Selling? Join us for another workshop in the "Fiscally Fit" seminar series that focuses on buying, selling and financing real estate. Topics covered include: • Where to start - " A winning strategy for renters, buyers and owners. • How to reduce stress while saving time and money. • Qualifying - " How to get approval now. • Income tax savings/benefits. • R.I.C.E. - " Reserve, Income, Credit & Equity. • Understanding the closing process. Today's Real Estate Market - " Where the high and low-markets are headed and what this means for buyers, sellers and owners.

Wednesday, April 23, 2014, 2:00 pm

Hosted by: Taichi Kawanai

Thursday, April 24, 2014, 12:30 pm

Hosted by: Daniel Pitonyak

I will show that the acoustic scaling patterns of anisotropic flow for different event shapes at a fixed collision centrality (shape-engineered events), provide robust constraints for the event-by-event fluctuations in the initial-state density distribution from ultrarelativistic heavy ion collisions. The empirical scaling parameters also provide a dual-path method for studying the temperature and baryon chemical potential (T, \mu_B) dependence of the specific shear viscosity (eta/s) of the quark-gluon plasma (QGP) produced in these collisions. An initial calibration of the scaling parameters via detailed viscous hydrodynamical model calculations, gives robust eta/s estimates for the plasma produced in Au+Au and Pb+Pb collisions at RHIC (Root_s =0.2 TeV) and the LHC (Root_s = 2.76 TeV) (respectively) which are insensitive to the initial-state geometry models considered.

Thursday, April 24, 2014, 3:00 pm

Hosted by: Ketevi A. Assamagan

In this talk, I will highlight some the latest searches for SUSY performed with the CMS detector at the LHC using the 8TeV dataset up to 20/fb. The results cover a broad range of signatures and final states, and probe a large range of the SUSY parameter space. The searches set stringent limits on the production of 1st and 2nd generation squarks and gluinos, 3rd generation squarks, EWK gauginos, sleptons, and include searches for R-parity violating SUSY.

Friday, April 25, 2014, 11:00 am

Hosted by: Ketevi Assamagan

The measurement of the shape of the Z boson rapidity distribution for pp Z/�'*  e+e- + X events at a center-of-mass energy of 1.96 TeV is presented in this seminar. Data collected with the D0 detector during the whole RunII period of the Fermilab Tevatron pp collider are used. By using these data with an integrated luminosity of up to 9.86 fb-1, the uncertainties on the rapidity distribution in the forward region are significantly reduced compared with previous measurements. The measurement is made for events with electron-positron mass between 66 and 111 GeV. Predictions of Next-to-Leading-Order QCD theory with CTEQ and MSTW parton distribution functions are found to agree well with the data over the full rapidity range.

Friday, April 25, 2014, 2:00 pm

Hosted by: Bjoern Schenke

At the highest possible transverse momenta at the LHC, quarkonia production should be dominated by fragmentation. I review recent developments in the calculation of quarkonium fragmentation functions using Non-Relativistic QCD (NRQCD) and SCET, including both single and double parton fragmentation functions. I then describe the recently developed fragmenting jet functions, which are applicable for calculating the cross section for an identified hadron produced within a jet. For a jet containing a quarkonium, these functions are calculable in terms of NRQCD production matrix elements. We show that measurement of the momentum distribution of quarkonium within a jet provides a novel means of extracting these matrix elements, thereby providing an interesting new test of NRQCD.

Tuesday, April 29, 2014, 11:00 am

Hosted by: Peter Steinberg

The suppression of high transverse momentum charged particles is an important signature of the strongly interacting medium produced in central PbPb collisions. Both partonic energy loss and the initial state of the collision system may contribute to the nuclear modification factor. To further understand and distinguish these effects, the charged particle production in pPb collisions at a center-of-mass energy of 5.02 TeV per nucleon pair has been measured with the CMS detector. This measurement covers a broad transverse momentum range of 0.4 to 100 GeV/c, and several pseudorapidity ranges. The nuclear modification factor is determined at midrapidity by normalizing the measured pPb spectrum to an interpolated pp reference spectrum constructed from previous measurements, and is significantly enhanced for particles with a transverse momentum above 30 GeV/c. The asymmetry of the collision system provides an opportunity to study nuclear effects on the parton distribution function by considering the production of charged particles in different pseudorapdity ranges. To quantitatively measure these effects, the ratios of the charged particle yields between corresponding positive and negative pseudorapidity ranges have been determined. The evolution of these ratios with pseudorapidity will be discussed.

Tuesday, April 29, 2014, 3:30 pm

Hosted by: Rob Pisarski

Advances at the intersection of quantum optics, nanoscience, gravitational wave interferometry and microwave technology are currently allowing experimentalists to extend the reach of quantum mechanics to large mechanical objects. As an emerging frontier in physics, macroscopic quantum mechanics is expected to yield fundamental insights as well as novel technologies. This talk will be centered around experiments on cryogenic electromechanical systems, optical resonator-cooled mechanics and levitated microparticles. Recent theoretical work on optomechanics in our group at RIT will also be discussed.

Wednesday, April 30, 2014, 10:00 am

Hosted by: James Muckerman

Modern capabilities in computations and simulations in multi-scale approaches allow us to address successfully many of the complex chemistry and physics fundamentals of sun-to-fuel and electricity-to-fuel energy conversions. In this presentation we will highlight recent studies dealing with photo-electrodes, proton membranes, and molecular electro-catalysis, relevant to new energy technologies. In the context of photo conversions, efficient e/h polaron transport in single and multiphase oxide electrodes (such as TiO2 or Fe2O3) is essential. We successfully characterized the single-phase e/h transport properties of these materials using density functional theory DFT combined with Marcus/Holstein theory. Challenges remain for multi-phase materials. Our calculations led us also to formulate a universal role of excess electrons on the surface chemistry of oxides. In the context of proton membranes for fuel cells, understanding the factors affecting proton transport and molecular selectivity in polymeric and ionic liquid membranes is critical to the design of efficient low cost stable membranes. Ab initio and classical molecular dynamics MD combined with percolation theory provided a means to characterize successfully pore structure and proton transport properties. Water percolation is a key to efficient proton transport. Most recently, our focus has been on molecular electro-catalysis. DFT-based quantum QM and mixed QM/MM approaches coupled with accelerated MD simulations for free energy calculation, and micro-kinetic modeling have been combined to predict accurately the catalytic performance of novel proton relay-based molecular catalysts for H2 oxidation and evolution. These efforts have reached what is perhaps an unprecedented level of success that put us within grasp of design by computer. These studies underscore the power of computations and the impact of high performance computing in characterizing the fundamental chemistry in such complex mole

Wednesday, April 30, 2014, 10:00 am

To join Play Group, go to: meetup.com/BNL-playgroup Tours, snacks, information and general socializing! All are welcome!

Wednesday, April 30, 2014, 4:00 pm

Hosted by: Peter Wanderer

Synthetic biology is bringing together engineers, physicists and biologists to model, design and construct biological circuits out of proteins, genes and other bits of DNA, and to use these circuits to rewire and reprogram organisms. These re-engineered organisms are going to change our lives in the coming years, leading to cheaper drugs, rapid diagnostic tests, and targeted therapies to attack "superbugs". In this talk, we highlight recent efforts to create synthetic gene networks and programmable cells, and discuss a variety of synthetic biology applications in biocomputing, biotechnology and biomedicine.

Thursday, May 1, 2014, 3:00 pm

Hosted by: Elizabeth Worcester

The SuperCDMS experiment at the Soudan Underground Laboratory is designed to detect dark matter directly by its interaction with nuclei in cryogenic germanium detectors. The improved detectors measure particle interactions using ionization and athermal phonon signals, whose topology allows for powerful rejection of radioactive backgrounds. In this talk, I will review recent SuperCDMS results focused on light WIMPs, including an analysis of 577 kg-d of low-energy data, and an analysis of specialized high-voltage data (CDMSlite). I will also discuss plans for a larger 100 kg germanium and silicon array planned for installation at SNOLAB.

Thursday, May 1, 2014, 6:00 pm

Friday, May 2, 2014, 11:00 am

Hosted by: Elizabeth Worcester

Since the discovery of neutrino oscillations and through the combined efforts of many experiments we now know all of the neutrino mass splittings and mixing angles with reasonable precision. The remaining unknown quantity is perhaps the most relevant piece of the puzzle: the CP violating phase $\delta$. While a two-flavor approximation is usually applicable in measurements of mixing angles and mass splittings, CP violation is only present in a complete three-flavor description of neutrino oscillations. Additionally, two other discrete symmetries are broken by the inclusion of a third neutrino flavor: the mass ordering and the mixing angle octant. The determination of these extra discrete parameters is paramount to resolving degeneracies and enabling the precise measurement of $\delta$. In this seminar the latest oscillation results from the MINOS long-baseline neutrino experiment will be presented. The analysis performs a fit to three-flavor neutrino oscillations including the full data set of beam and atmospheric neutrinos and antineutrinos. It is the first combined analysis of $\nu_\mu$ disappearance and $nu_e$ appearance data by a long-baseline neutrino experiment.

Friday, May 2, 2014, 2:00 pm

Hosted by: Bjoern Schenke

The past decade has seen substantial progress in the application of Wilson's ideas in modern quantum field theory. In this talk, I review the basics of functional renormalisation in the continuum, and illustrate its applications for a variety of strong coupling phenomena in quantum field theory and statistical physics.

Saturday, May 3, 2014, 8:45 am

Saturday, May 3, 2014, 9:00 am

Tuesday, May 6, 2014, 3:30 pm

Hosted by: Peter Petreczky

"Core-collapse supernovae have challenged theorists and computational science for half a century. Such explosions are the source of many of the heavy elements in the Universe and the birthplace of neutron stars and stellar-mass black holes. However, determining the mechanism of explosion remains the key goal of theory. Though the synergistic operation of turbulence and neutrino heating seems implicated, and multi-dimensional simulations with some physical fidelity that have provided insight, we have yet to reproduce the phenomenon theoretically. In this talk, I will review the goals of supernova theory, the state of the field, and the contending explosion models. In the process, I will highlight the computational astrophysics that has been applied to date, and that may be necessary in the future to credibly unravel this mystery."

Tuesday, May 6, 2014, 5:30 pm

Hosted by: Margaret Foster

If you are worried about your next big presentation, Toastmasters can help. BNL Toastmasters Club will hold a special Guest Night on Tuesday, May 6, from 5:30 to 7:30 p.m. in Biology (Bldg.163), room 160. BNL Toastmasters will present a special demonstration during the meeting and light refreshments will be served. Contacts: Beth Lin bylin@bnl.gov and Don Romard dromard@optonline.net. The Brookhaven National Laboratory Toastmasters club meets regularly on the first and third Tuesdays of the month to practice speaking and presentation skills.

Wednesday, May 7, 2014, 10:00 am

To join Play Group, go to: meetup.com/BNL-playgroup Tours, snacks, information and general socializing! All are welcome!

Wednesday, May 7, 2014, 3:00 pm

Hosted by: Ketevi Assamagan

Many metrics are not universally accepted in quantifying the impact of scientific research in general. The problem is more acute in the case of discovery science, where the motivation for pursuing the research was not necessarily to address or solve a specific economic problem, and therefore not readily tied to a return on investment for example. The topic to be presented in this colloquium focuses on the economic impact of particle physics research, and in general the impact of discovery science. The information is derived from one of our study groups, completed in the summer of 2013 at the University of Minnesota for the strategic planning exercise of the particle physics community of the United States. Making the case for supporting this science for DOE Laboratories occasionally includes a response to questions about the benefits to society of this research, including the economic benefits. If it were possible to better understand the broader impacts of the direction of this research, then hopefully this would contribute to making a clearer case for pursuing this research among decision makers.

Wednesday, May 7, 2014, 6:00 pm

Thursday, May 8, 2014, 6:30 pm

Friday, May 9, 2014, 12:00 pm

Hosted by: Amarjit Soni

Friday, May 9, 2014, 2:00 pm

Hosted by: Bjoern Schenke

It has been known that magnetic fields enhance the chiral symmetry breaking (ChSB). According to studies of QED or models of the 4-fermi interactions, it was expected that the enhanced ChSB would resist the chiral restoration effects, increasing critical temperatures for the chiral restoration and deconfinement. Recent lattice calculations, however, showed the opposite behavior: the critical temperatures are reduced as a magnetic field increases. I will discuss how to resolve this apparent paradox, emphasizing which characteristic features of QCD make differences from other models.

Tuesday, May 13, 2014, 3:30 pm

Hosted by: John Tranquada

The recent advent of atomically thin 2-dimensional materials such as graphene, hexa boronitride, layered transition metal chalcogenide and many strongly correlated materials, where weak van der Waals (vdW) force holds the layers together, has provide a new opportunity of studying novel quantum phenomena in low dimensional systems. The vdW layered materials consist of covalently bonded atomic layers entities that weakly interact with other constituents. With a strong built-in anisotropy in their components, vdW materials often show a quasi-low dimensionality leading to strongly correlated electron behaviors. These materials in 2-d limits also allow us to apply new experimental techniques such as electrolyte gating, scanning potentiometry, and electromechanical magnetometry. Moreover, combination of different layered constituents may produce heterogeneous and functional materials. In this talk, we will discuss to develop the method of transferring two-dimensional atomic layers of van der Waals solids to build functional heterostacks. Novel electron transport and optoelectronic phenomena can occur across these hetero-interfaces of atomicallycontrolled quantum heterostructures.

Wednesday, May 14, 2014, 10:00 am

To join Play Group, go to: meetup.com/BNL-playgroup Tours, snacks, information and general socializing! All are welcome!

Wednesday, May 14, 2014, 12:00 pm

Hosted by: Christina Swinson

Monthly meeting of the Brookhaven Women in Science (BWIS) board. All BWIS members and affiliates are welcome to attend.

Thursday, May 15, 2014, 12:30 pm

Hosted by: Daniel Potonyak

Friday, May 16, 2014, 12:00 pm

Hosted by: Amarjit Soni

Sunday, May 18, 2014, 2:00 pm

"Particle Fever," a new documentary showcasing the hunt for the Higgs boson at CERN's Large Hadron Collider, will be hitting Long Island on Sunday, May 18, at 2 p.m. at the Cinema Arts Centre in Huntington. A panel discussion following the film will feature researchers from Brookhaven Lab and Stony Brook University who played a role in the Higgs search, along with a live video feed from CERN. After the panel discussion, the Centre will host a wine and cheese event to provide attendees with an opportunity to talk with the scientists about their work in an informal setting. Tickets for the event are not yet available as of March 10, but will be announced when they go on sale.

Monday, May 19, 2014, 8:00 am

Hosted by: Photon Sciences and CFN Useres' Executive Committees

Tuesday, May 20, 2014, 8:00 am

Hosted by: Photon Sciences and CFN Useres' Executive Committees

Wednesday, May 21, 2014, 8:00 am

Hosted by: Photon Sciences and CFN Useres' Executive Committees

Wednesday, May 21, 2014, 10:00 am

To join Play Group, go to: meetup.com/BNL-playgroup Tours, snacks, information and general socializing! All are welcome!

Thursday, May 22, 2014, 12:00 pm

Are You on Your Way to a First Class Retirement? Join the Foundation for Personal Financial Education for an introductory seminar on becoming fiscally fit through the process of proper investment planning. Learn how to: • Assess Your Investment Profile • Measure Risk in Your Portfolio • Develop Strategies to Minimize Risk • Discuss Taxes and Health Care Costs • Create Your Own Action Plan for Success

Thursday, May 22, 2014, 12:00 pm

Are You on Your Way to a First Class Retirement? Join the Foundation for Personal Financial Education for an introductory seminar on becoming fiscally fit through the process of proper investment planning. Learn how to: • Assess Your Investment Profile • Measure Risk in Your Portfolio • Develop Strategies to Minimize Risk • Discuss Taxes and Health Care Costs • Create Your Own Action Plan for Success

Thursday, May 22, 2014, 3:00 pm

Hosted by: Ketevi A. Assamagan

I will cover the most recent Higgs boson physics results from LHC with a special focus on precision measurements of properties of the recently discovered SM-like Higgs boson, which can potentially reveal signs for new physics.

Wednesday, May 28, 2014, 10:00 am

To join Play Group, go to: meetup.com/BNL-playgroup Tours, snacks, information and general socializing! All are welcome!

Friday, May 30, 2014, 12:00 pm

Hosted by: Amarjit Soni

Friday, May 30, 2014, 2:00 pm

Hosted by: Wah-Keat Lee

Canceled Seminar scheduled for 2/13/14 due to snow and will be rescheduled. Exact date is unknown but selected 3/27/14 as an estimated dated (posted by em 2/12/14). When a molten material is cooled, it typically grows into orderly crystals. But if the cooling rate is too fast for the entire melt to crystallize, the remaining material ends up in a non-crystalline state known as a glass. This talk is about the discovery and characterization of a unique metallic glass that, during rapid cooling, forms a solid by means of nucleation followed by growth normal to a moving interface between the solid and melt, with partitioning of the chemical elements. We were able to show experimentally that this is not a polycrystalline composite with nanometer-sized grains, and conclude that this may be a new kind of structure: an atomically ordered, isotropic, non-crystalline solid, possessing no long-range translational symmetry. This novel structure��"isotropic with infinite rotational symmetry and no translational symmetry��"had been considered theoretically possible, but has never before been observed.

Monday, June 2, 2014, 8:00 am

Wednesday, June 4, 2014, 10:00 am

To join Play Group, go to: meetup.com/BNL-playgroup Tours, snacks, information and general socializing! All are welcome!

Thursday, June 5, 2014, 4:30 pm

Hosted by: Mel Morris

Tuesday, June 10, 2014, 11:00 am

Hosted by: Elizabeth Worcester

Jiangmen Underground Neutrino Observatory (JUNO) is a medium baseline reactor neutrino experiment, to determine the neutrino mass hierarchy better than 3 sigma with 20kt liquid scintillator and six year data taking. The seminar will focus on the measurement of neutrino mass hierarchy with a short discussion on other possible physics topics, such as solar neutrino, supernova neutrino, etc. The progress of JUNO will also be reported, including project status, detector conceptual design, civil construction, electronics and offline software progress.

Tuesday, June 10, 2014, 3:30 pm

Hosted by: Peter Petreczky

Wednesday, June 11, 2014, 10:00 am

To join Play Group, go to: meetup.com/BNL-playgroup Tours, snacks, information and general socializing! All are welcome!

Wednesday, June 11, 2014, 1:30 pm

Hosted by: Simon Billinge

Chemically homogeneous, strongly correlated transition-metal oxides, with competing states, may display phase separation when the electron charge is coupled to spin or lattice degrees of freedom. Similar nanoscale inhomogeneities in insulating spin systems are rare and poorly understood, although they have been theoretically predicted to arise from geometrical frustration already in the doping-free limit. In this respect, the spatially-anisotropic triangular spin system NaMnO2 [1, 2], provides a paradigm where fingerprints of a unique magnetostructurally inhomogeneous ground state are identified. For this purpose we review our comprehensive structural synchrotron X-ray diffraction and HAADF-STEM investigations, which are complemented by local-probe NMR and muon-spin relaxation (μ+SR) measurements, incorporating also ab initio calculations [2]. We argue that the Néel order evolves as the outcome of symmetry-breaking pinning sites (e.g. interphases) due to the local-scale inhomogeneity which is endorsed by the inherent frustrated topology of the spin lattice. Remarkably, frustration-mediated structural complexity in this manganite goes beyond the limitations of the bulk symmetry and magnetoelectricity is unveiled in an otherwise collinear magnetic system. [1] M. Giot, L.C. Chapon, J. Androulakis, M.A. Green, P.G. Radaelli, and A. Lappas, Phys. Rev. Lett. 2007, 99, 247211. [2] C. Stock, L.C. Chapon, O. Adamopoulos, A. Lappas, M. Giot, J.W. Taylor, M.A. Green, C.M. Brown, and P.G. Radaelli, Phys. Rev. Lett. 2009, 103, 077202. [3] A. Zorko, O. Adamopoulos, M. Komelj, D. Arcon, and A. Lappas, Nat. Commun. 2014, 5:3222 doi: 10.1038/ncomms4222.

Tuesday, June 17, 2014, 9:00 am

Tuesday, June 17, 2014, 3:30 pm

Hosted by: Peter Petreczky

Wednesday, June 18, 2014, 9:00 am

Wednesday, June 18, 2014, 10:00 am

To join Play Group, go to: meetup.com/BNL-playgroup Tours, snacks, information and general socializing! All are welcome!

Wednesday, June 18, 2014, 2:00 pm

Hosted by: Amarjit Soni

Thursday, June 19, 2014, 9:00 am

Friday, June 20, 2014, 9:00 am

Wednesday, August 6, 2014, 9:00 am

Thursday, August 7, 2014, 9:00 am