Fate of the Weakly-Bound ψ (2s) in Nuclear Matter J. Matthew Durham

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Presentation transcript:

Fate of the Weakly-Bound ψ (2s) in Nuclear Matter J. Matthew Durham

Effects in Nuclear Collisions-nPDF 2Matt Durham – Quark Matter 2014 Collisions of nuclei are inherently different from collisions of bare nucleons EPS09 Nuclear PDF is modified: S,AS, EMC, saturation? RHIC probes a unique crossover region in x, both shadowing and anti-shadowing regions easily accessible Heavy quarks especially sensitive to gluon nPDF

Effects in Nuclear Collisions-Cronin 3Matt Durham – Quark Matter 2014 Collisions of nuclei are inherently different from collisions of bare nucleons PRC (2013) Partonic interactions in nucleus Energy loss in CNM kT kicks (“traditional” explanation of Cronin, but mass dependence?) Baryon enhancement, recombination? Possible hydrodynamic phenomena in d+A? Nuclear PDF is modified: S,AS, EMC, saturation? RHIC probes a unique crossover region in x, both shadowing and anti-shadowing regions easily accessible Heavy quarks especially sensitive to gluon nPDF

Effects in Nuclear Collisions-QGP 4Matt Durham – Quark Matter 2014 Collisions of nuclei are inherently different from collisions of bare nucleons Nuclear PDF is modified: S,AS, EMC, saturation? RHIC probes a unique crossover region in x, both shadowing and anti-shadowing regions easily accessible Heavy quarks especially sensitive to gluon nPDF Partonic interactions in nucleus Energy loss in CNM kT kicks (“traditional” explanation of Cronin, but mass dependence?) Baryon enhancement, recombination? Possible hydrodynamic phenomena in d+A? In A+A collisions, all of the above effects plus: Strong charm flow and energy loss Color screening in deconfined medium Recombination (likely at LHC, maybe at RHIC) PRC (2011)

Quarkonia at PHENIX 5 d Au e μ μ Designed to measure quarkonia down to pT = 0 through dilepton decays at mid and forward rapidity: Electrons: |y| <0.35, -Tracked with DC,PC -ID with RICH, EmCal Muons: 1.2 < |y| < 2.2, -Tracked with wire chambers -Further muon ID with layers of steel and streamer tubes NEW: Precision silicon tracking Matt Durham - Quark Matter 2014 Anti-shadowing region Shadowing region Near anti-shadowing/shadowing crossover

Open HF versus J/ψ 6 Sensitive to same initial state effects: gluon shadowing, kT broadening, partonic energy loss in nucleus (details on open HF in S. Lim’s talk) BIG difference: nuclear breakup of charmonia bound states *Keep in mind different kinematics for decay leptons from single charm quark versus fully reconstructed cc state Forward: similar behavior -Short time in nucleus -Low co-mover density Mid- and backwards rapidity: DIFFERENT behavior enhanced open HF versus suppressed J/ψ Matt Durham - Quark Matter 2014 Compelling evidence for significant cc breakup effects arXiv: PRC 87, PRL 109, PRC 87, arXiv: PRC 87,

Excited charmonia: ψ(2s) Matt Durham - Quark Matter PRD 85, (2012) Very weakly bound: E b ~50 MeV PHENIX ee measurements at midrapidity in p+p: ψ(2s) /ψ(1s) = 2.1 ± 0.5 % Finalized measurement in d+Au: PRL 111, (2013) Central d+Au Peripheral d+Au p+p By eye, clear difference in peaks between peripheral and central d+Au

Nuclear Modification R dA Matt Durham - Quark Matter ψ(2s) more suppressed by a factor of ~3 in central collisions Very different trend than ψ(1s) PRL 111, (2013)

Confirmation at LHC Matt Durham - Quark Matter Similar effect observed by ALICE in Min Bias p+Pb arXiv:

Relative Modification of ψ(2s)/ψ(1s) – time in nucleus Matt Durham - Quark Matter Increased suppression NOT due to same breakup mechanism while inside nucleus. Breakup outside nucleus (co-mover interactions)? Or is there an altogether different mechanism at RHIC energies? After cc formation, the pair expands as it crosses nucleus ψ(1s) formation time ~0.15 fm PRL 111, (2013) At RHIC, τ ~ 0.05 fm Precursor state crosses nucleus before final state meson forms

Relative Modification of ψ(2s)/ψ(1s) – particle density Matt Durham - Quark Matter Relative modification in all systems follows common trend with increasing produced particle density. Co-mover (or medium?) density seems to be the relevant quantity. PRL 111, (2013)

Mini-summary Charmonia production in the nucleus suppressed beyond open charm – breakup effects are significant The magnitude and trend of ψ(2s) suppression in nuclear collisions is quite different from J/ψ Very short crossing time: effect likely to occur outside the nucleus Approximate scaling with produced particle density Measurements at different rapidities at same CM energy would: – Effectively vary produced particle density, proper time in nucleus – Increased discrimination between models Matt Durham - Quark Matter

Precision Tracking at Forward Rapidity: the FVTX Matt Durham - Quark Matter Details just published: NIM A 755 (2014) 44 Forward Silicon Vertex Tracker Four layers of silicon sensors in each end of central rapidity silicon 75um pitch in r, 3.75 deg in phi Full azimuthal coverage at forward and backward rapidity Position resolution better than 30 um in each station Single hit efficiency >95%

FVTX in PHENIX Matt Durham - Quark Matter Opening angle in front of absorber: Greatly improved mass resolution and background rejection ρ,ωφ J/ψ ψ(2s)

Extracting the ψ(2s) peak Matt Durham - Quark Matter Signal peaks: Crystal Ball + gaussian Bg: mixed event combinatorial + exponential continuum

Matt Durham - Quark Matter ψ(2s) production vs √s First measurement at 510 GeV. First measurement at forward rapidity at RHIC. Consistent with world data.  p+p baseline well understood experimentally.

Near Future Plans Matt Durham - Quark Matter Projection for Run-15 Run-14: 200 GeV Au+Au: PHENIX luminosity goals reached, still 7 weeks to go in run. Our BEST Au+Au dataset ever. First Au+Au with FVTX. Run-15: 200 GeV p+Au First p+Au at RHIC Reconstructed FVTX tracks in a typical Au+Au event

Summary The difference between suppression of charmonia states in d+Au collisions at RHIC indicates late stage breakup that occurs outside the nucleus PHENIX is actively exploring this topic with greatly enhanced capabilities at forward rapidity Looking forward to Run-15: p+A at RHIC Matt Durham - Quark Matter

BACKUPS Matt Durham - Quark Matter

Matt Durham - Quark Matter Centrality in dA