human | Q5 |
P6178 | Dimensions author ID | 013173736303.37 |
P2930 | INSPIRE-HEP author ID | B.Holzman.1 |
P2798 | Loop ID | 703305 |
P496 | ORCID iD | 0000-0001-5235-6314 |
P1153 | Scopus author ID | 35357377500 |
P69 | educated at | Carnegie Mellon University | Q190080 |
University of Illinois at Chicago | Q955764 | ||
P108 | employer | Fermilab | Q337641 |
P735 | given name | Burt | Q16275122 |
Burt | Q16275122 | ||
P106 | occupation | researcher | Q1650915 |
P21 | sex or gender | male | Q6581097 |
Q59654823 | A beam vertex detector using scintillating fibers |
Q59654752 | A first look at Au+Au collisions at RHIC energies using the PHOBOS detector |
Q59654825 | An excitation function at the AGS: E917 — Probing the dynamics of heavy ion collisions |
Q57545467 | An excitation function of K− and K+ production in Au+Au reactions at the AGS |
Q59654663 | An objective comparison test of workload management systems |
Q59654717 | Analysis of dynamic multiplicity fluctuations at PHOBOS |
Q59654795 | Antilambda Production inAu+AuCollisions at11.7AGeV/c |
Q59654809 | Au+Au collisions in experiment E917 at the Brookhaven AGS |
Q57545482 | Au+Au reactions at the AGS: Experiments E866 and E917 |
Q59654801 | Baryon Rapidity Loss in RelativisticAu+AuCollisions |
Q57745844 | CMS computing operations during run 1 |
Q57745846 | CMS experience of running glideinWMS in High Availability mode |
Q59640879 | CMS multicore scheduling strategy |
Q59654713 | Centrality Dependence of Charged Hadron Transverse Momentum Spectra inAu+AuCollisions fromsNN=62.4to 200 GeV |
Q59654750 | Centrality Dependence of Charged-Hadron Transverse-Momentum Spectra ind+AuCollisions atsNN=200 GeV |
Q59654685 | Centrality and energy dependence of charged-particle multiplicities in heavy ion collisions in the context of elementary reactions |
Q59654705 | Centrality and pseudorapidity dependence of elliptic flow for charged hadrons in Au+Au collisions atsNN=200GeV |
Q59654727 | Centrality dependence of charged antiparticle to particle ratios near midrapidity in d+Au collisions at sNN=200GeV |
Q59654779 | Centrality dependence of charged particle multiplicity at midrapidity in Au+Au collisions atsNN=130 GeV |
Q59654776 | Centrality dependence of the charged particle multiplicity near midrapidity inAu+Aucollisions atsNN=130and 200 GeV |
Q59654715 | Charged antiparticle to particle ratios near midrapidity inp+pcollisions atsNN=200GeV |
Q59654766 | Charged hadron transverse momentum distributions in Au+Au collisions at = 200 GeV |
Q59654756 | Charged hadron transverse momentum distributions in Au+Au collisions at GeV |
Q59654741 | Charged hadron transverse momentum distributions in Au+Au collisions at sNN=200 GeV |
Q59654753 | Charged hadron transverse momentum distributions in Au+Au collisions at √SNN = 200 GeV |
Q59654728 | Charged particle multiplicity fluctuations in Au+Au collisions at |
Q59654807 | Charged-Particle Multiplicity near Midrapidity in CentralAu+AuCollisions atsNN=56and130GeV |
Q59654798 | Charged-Particle Pseudorapidity Density Distributions fromAu+AuCollisions atsNN=130GeV |
Q59654634 | Charged-particle multiplicity and pseudorapidity distributions measured with the PHOBOS detector inAu+Au,Cu+Cu,d+Au, andp+pcollisions at ultrarelativistic energies |
Q59654684 | Charged-particle pseudorapidity distributions in Au+Au collisions atsNN=62.4GeV |
Q59654632 | Cloud Bursting with GlideinWMS: Means to satisfy ever increasing computing needs for Scientific Workflows |
Q59654674 | Cluster properties from two-particle angular correlations inp+pcollisions ats=200and 410 GeV |
Q59654725 | Collision geometry scaling ofAu+Aupseudorapidity density fromsNN=19.6to200GeV |
Q59654828 | E917 at the AGS: High Density Baryon Matter |
Q59654637 | Early experience on using glideinWMS in the cloud |
Q59654714 | Elliptic flow in Au+Au collisions at RHIC |
Q59654633 | End-To-End Solution for Integrated Workload and Data Management using GlideinWMS and Globus Online |
Q59654688 | Energy Dependence of Directed Flow over a Wide Range of Pseudorapidity inAu+AuCollisions at the BNL Relativistic Heavy Ion Collider |
Q59654785 | Energy Dependence of Particle Multiplicities in CentralAu+AuCollisions |
Q53702941 | Energy dependence of elliptic flow over a large pseudorapidity range in Au+Au collisions at the BNL relativistic heavy ion collider. |
Q59654738 | Erratum to: “Recent results from PHOBOS at RHIC” |
Q59654642 | Event-by-Event Fluctuations of Azimuthal Particle Anisotropy inAu+AuCollisions atsNN=200 GeV |
Q59654739 | Evidence of final-state suppression of high-p$_{_{\rm T}}$ hadrons in Au + Au collisions using d + Au measurements at RHIC |
Q57545464 | Excitation function of K+ and π+ production in Au+Au reactions at 2–10 AGeV |
Q57745873 | Experience building and operating the CMS Tier-1 computing centres |
Q57745819 | Experience in using commercial clouds in CMS |
Q59654638 | Experiences Using GlideinWMS and the Corral Frontend across Cyberinfrastructures |
Q59654797 | FIRST RESULTS FROM THE PHOBOS EXPERIMENT AT THE RHIC COLLIDER |
Q59654796 | First performance results of the Phobos silicon detectors |
Q59654757 | Flow and bose-einstein correlations in Au-Au collisions at RHIC |
Q59654729 | Flow in Au+Au collisions at RHIC |
Q59654690 | Forward-backward multiplicity correlations insNN=200GeV Au+Au collisions |
Q59654759 | Global observations from PHOBOS |
Q113856006 | Hardware-accelerated inference for real-time gravitational-wave astronomy |
Q59654814 | Hbt Studies with E917 at the Ags: a Status Report |
Q59654645 | High Transverse Momentum Triggered Correlations over a Large Pseudorapidity Acceptance inAu+AuCollisions atsNN=200 GeV |
Q59654630 | How much higher can HTCondor fly? |
Q59654802 | How strange is PHOBOS? First RHIC physics results and future prospects |
Q59654664 | Identified charged antiparticle to particle ratios near midrapidity in Cu+Cu collisions atsNN=62.4and 200 GeV |
Q59654730 | Identified hadron spectra from PHOBOS |
Q59654675 | Identified hadron transverse momentum spectra in Au+Au collisions atsNN=62.4GeV |
Q59654760 | Identified particles in Au+Au collisions at GeV |
Q59654740 | Low-pT spectra of identified charged particles in $\sqrt{s_{NN}}$ = 200 GeV Au+Au collisions from PHOBOS experiment at RHIC |
Q59654718 | Measuring mid-rapidity multiplicity in PHOBOS |
Q59654644 | Non-flow correlations and elliptic flow fluctuations inAu+Aucollisions atsNN=200GeV |
Q59654629 | Nucleon-gold collisions at200AGeV using taggedd + Auinteractions in the PHOBOS detector |
Q21481859 | Observation of a new boson at a mass of 125 GeV with the CMS experiment at the LHC |
Q59654777 | Overview of results from PHOBOS experiment at RHIC |
Q59654686 | PHOBOS Collaboration |
Q59654681 | PHOBOS Overview |
Q59654626 | Participant and spectator scaling of spectator fragments in Au + Au and Cu + Cu collisions atsNN=19.6and 22.4 GeV |
Q57545474 | Particle production at the AGS: an excitation function |
Q59654723 | Particle production at very low transverse momenta inAu+Aucollisions atsNN=200GeV |
Q59654683 | Particle production in nuclear collisions over a broad centrality range from the PHOBOS experiment |
Q59654780 | Performance of the PHOBOS silicon sensors |
Q57745838 | Pooling the resources of the CMS Tier-1 sites |
Q59654815 | Production of φ mesons in AuAu collisions at the AGS |
Q59654736 | Production ofϕmesons inAu+Aucollisions at11.7AGeV∕c |
Q59654772 | Proton emission in Au+Au collisions at 6, 8, and 10.8 GeV/nucleon |
Q59654726 | Pseudorapidity Distribution of Charged Particles ind+AuCollisions atsNN=200 GeV |
Q59654774 | Pseudorapidity and Centrality Dependence of the Collective Flow of Charged Particles inAu+AuCollisions atsNN=130 GeV |
Q59654745 | Pseudorapidity dependence of charged hadron transverse momentum spectra ind+Aucollisions atsNN=200GeV |
Q59654733 | Pseudorapidity distributions of charged particles in d+Au and p+p collisions at |
Q59654693 | RECENT RESULTS FROM PHOBOS AT RHIC |
Q59654734 | Rapidity andkTdependence of HBT correlations in Au+Au collisions at 200 GeV with PHOBOS |
Q59654799 | Ratios of Charged Antiparticles-to-Particles near Mid-Rapidity inAu+AuCollisions atsNN=130GeV |
Q59654763 | Ratios of charged antiparticles to particles near midrapidity inAu+Aucollisions atsNN=200GeV |
Q59654679 | Recent Results from Phobos |
Q59654724 | Recent results from PHOBOS at RHIC |
Q59654654 | Recent results from PHOBOS on particle production at high p T |
Q59654816 | Results from experiment E917 for Au + Au collisions at the AGS |
Q59654737 | Results from the PHOBOS experiment at RHIC |
Q59654707 | Scaling of charged particle production ind+Aucollisions atsNN=200GeV |
Q59654651 | Scaling properties in bulk andpT-dependent particle production near midrapidity in relativistic heavy ion collisions |
Q59654749 | Significance of the Fragmentation Region in Ultrarelativistic Heavy-Ion Collisions |
Q59654806 | Silicon pad detectors for the PHOBOS experiment at RHIC |
Q59654770 | Strange hadron production at low transverse momenta |
Q59654682 | Strangeness measurements with the PHOBOS experiment |
Q59654803 | Strangeness production in Au + Au collisions at AGS energies |
Q59654691 | System Size and Centrality Dependence of Charged Hadron Transverse Momentum Spectra inAu+AuandCu+CuCollisions atsNN=62.4and 200 GeV |
Q59654673 | System Size, Energy, Pseudorapidity, and Centrality Dependence of Elliptic Flow |
Q59654653 | System Size, Energy, and Centrality Dependence of Pseudorapidity Distributions of Charged Particles in Relativistic Heavy-Ion Collisions |
Q59654646 | System size dependence of cluster properties from two-particle angular correlations inCu+CuandAu+Aucollisions atsNN=200GeV |
Q59654781 | Systematic study of Au–Au collisions with AGS experiment E917 |
Q21521427 | The CMS experiment at the CERN LHC |
Q59638636 | The HEPCloud Facility: elastic computing for High Energy Physics – The NOvA Use Case |
Q59654650 | The PHOBOS Collaboration |
Q59654761 | The PHOBOS detector at RHIC |
Q59654820 | The PHOBOS experiment at the RHIC collider |
Q56442213 | The PHOBOS perspective on discoveries at RHIC |
Q59654813 | The PHOBOS silicon pad sensors |
Q59654822 | The PHOBOS silicon sensors |
Q59654657 | The Pilot Way to Grid Resources Using glideinWMS |
Q59640897 | The benefits and challenges of sharing glidein factory operations across nine time zones between OSG and CMS |
Q59654735 | The landscape of particle production: results from PHOBOS |
Q59654694 | Transverse momentum and rapidity dependence of Hanbury-Brown–Twiss correlations in Au+Au collisions atsNN=62.4 and 200 GeV |
Q59654712 | Ultra-relativistic Au+Au and d+Au collisions: Experimental studies by PHOBOS |
Q59654771 | Universal Behavior of Charged Particle Production in Heavy Ion Collisions at RHIC Energies |
Q59654762 | Universal behavior of charged particle production in heavy ion collisions |
Q59654755 | Universal behavior of charged particle production in heavy ion collisions at RHIC energies |
Q57745875 | Use of glide-ins in CMS for production and analysis |
Q59654641 | Using Amazon's Elastic Compute Cloud to dynamically scale CMS computational resources |
Q59654719 | Using multiplicity as a fractional cross-section estimation for centrality in PHOBOS |
Q59654625 | Virtual machine provisioning, code management, and data movement design for the Fermilab HEPCloud Facility |
Q58429354 | glideinWMS experience with glexec |
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