EIC prospects for SIDIS and ΔG · 2011. 2. 11. · SIDIS and ΔG Thomas Burton BNL RHIC and AGS...

EIC prospects for SIDIS and ΔG

Thomas BurtonBNL

RHIC and AGS Users’ Meeting 2010

Overview

• What do we currently know about spin?

• What do we need to learn & improve?

• How does an EIC allow us to do this?

‣ ΔG

‣ SIDIS - longitudinal & transverse spin

Spin of the nucleon

• Ultimate goal: disentangle quark, gluon and orbital contributions to nucleon spin

• Understand spin-dependent parton dynamics (Sivers, Boer-Mulders...).

• Many quantities/distributions are still poorly known.

12h= P, 12 | JQCD

z |P, 12 = 12q

∑ Sqz + Sgz + Lqzq∑ + Lgz

Deep inelastic scattering

x = Q2/2M(E-E`) Q2 = -q2 = -(e - e`)2

F1(x) = Σq q+(x) + q-(x)

Longitudinal spin in DIS

F1(x) = Σq q+(x) + q-(x)

g1(x) = Σq q+(x) - q-(x)

A1 = g1 / F1

Quark (spin ½)absorbs

photon (spin 1)and flips helicity

Δq = q+ - q-

HERAScaling violations

HERA F2

1 10 102

Q2(GeV

ZEUS NLO QCD fit

H1 PDF 2000 fit

H1 94-00

H1 (prel.) 99/00

ZEUS 96/97

x=6.32E-5x=0.000102

x=0.000161x=0.000253

x=0.0004x=0.0005

x=0.000632x=0.0008

x=0.0013

x=0.0021

x=0.0032

x=0.005

x=0.008

x=0.013

x=0.021

x=0.032

x=0.05

x=0.08

x=0.13

x=0.18

x=0.25

x=0.65

• Exquisite control of parton kinematics.

• Clean and precise determination of parton distributions

• We would like the same precision for spin-dependent distributions

➡ Detailed understanding of nucleon spin structure

• Where do we currently stand with this aim?

Gluon contribution to the nucleon helicity: ΔG

• ΔG = ∫dx Δg(x)

• Δg = g+ - g-

12h= P, 12 | JQCD

z |P, 12 = 12q

1) Inclusive DIS spin asymmetries

Inclusive world data

g1 scaling violations

Scaling violations (Q2-dependence) give indirect access to the gluon distribution via DGLAP evolution.

2) ΔG from p + p

RHIC p + p collisions at midrapidity directly involve gluons

Rule out large ΔG for 0.05 < x < 0.2

DISEIC

Small at currently accessible xΔG = -0.084

5fb-1 integrated luminosity

Access to ΔG at small x where

uncertainties are very large

5fb-1 integrated luminosity

Access to ΔG at small x where

uncertainties are very large

ΔG via charm• Measure charm

prodution via D0 → K- π+

• High energy → theoretically clean

10 fb-1 at 10+250

2.5 fb-1 at 5+50

Gluon polarisation

• EIC will provide precise g1 to small x

➡ Determination of Δg at small x

➡ Reduced uncertainty on ΔG due to low-x extrapolation

➡ Precise test of the Bjorken sum rule

∫01dx (g1p(x,Q2) - g1n(x,Q2)) = 1/6gA(1 + O(αs) + O(1/Q2))

inclusive DIS

The hadronic final state is not measured

Semi-inclusive DIS: SIDIS

Tag a hadron ➜ access to quark flavour

12h= P, 12 | JQCD

z |P, 12 = 12q

inclusive DIS

Longitudinal spin

Semi-inclusive DIS asymmetries

ProtonHelium

Deuteron

Sea uncertainties remain large

Δu = 0.813Δd = -0.459Δu = 0.036Δd = -0.115Δs = -0.057ΔΣ = 0.242

@ Q2 = 10 GeV2

Flavour-dependence

Flavour-dependenceeRHIC projections for:

• 10 + 250 GeV

• 9fb-1

Current

Transverse spin

Transverse spin asymmetries

• First seen in p + p

• What is their origin?

Transverse-momentum-dependent functions (TMDs)

ransverse spin topics

Transversity distribution δq = q↑ - q↓

“Sivers” parton distributionsParton distributions depend on S⊥

“Collins” fragmentation functionsFragmentation depends on S⊥

Transverse spin in SIDIS• Collins & Sivers - different azimuthal dependence

➡ Disentangle the effects

Transverse spin in SIDIS• Collins & Sivers - different azimuthal dependence

➡ Disentangle the effects

Phys. Rev. Lett. 103 (2009)

152002

Current status

Sivers functions

Transversity

Uncertainties remain large

Sivers at EIC

• High luminosity

➡ x, Q2 & momentum dependence

➡multi-dimensional binning

Transverse spin at EIC

• Uncertainties remain large compared to helicity distributions

• Precision measurements of TMDs, including their momentum and Q2 dependence

• Sivers, Collins, Boer-Mulders...

• Precise measure of transversity

• High energy → theoretically interpretable

EIC summary

• Complementary x, Q2, energy range to past & existing experiments

• High luminosity → precise

➡ Will advance our knowledge of all aspects of the spin puzzle

• Also see talks by:

• Elke: GPDs

• Thomas Ullrich: EIC physics case

• Vladimir: eRHIC machine design

EIC prospects for SIDIS and ΔG · 2011. 2. 11. · SIDIS and ΔG Thomas Burton BNL RHIC and AGS...

Documents

Transcript of EIC prospects for SIDIS and ΔG · 2011. 2. 11. · SIDIS and ΔG Thomas Burton BNL RHIC and AGS...

First law Working with ΔG work on heat in Calculate from ...

Κ?Q?PHCR?PQGHCO AG? QM JET?KGPJX … 84-123.pdf · Δg?pq;pcgo qmπmf

· Web viewChick Corea - Gary Burton. ... Word of Mouth. Οι Σανάδες, το πολυφωνικό γυναικείο γκρουπ και το human beatbox ντουέτο

SubstanceΔH 0 f (kJ/mol) ΔG 0 f (kJ/mol ) S 0 (J/mol* K) H(g)218.0203.3114.7 H + (aq)000 H + (g)1536.31517.1108.9 H 2 (g)00130.7 I(g)106.7670.2180.79 I.

Slide 1 of 54 20-3 E cell, ΔG, and K eq Cells do electrical work. Moving electric charge. Faraday constant, F = 96,485 C mol -1 elec = -nFE ΔG.

Glicólise. Metabolismo da glicose C 6 H 12 O 6 + 6 O 2 6 CO 2 + 6 H 2 O ΔG’ o = -2.870 kJ/mol Glicólise primeira via do catabolismo da glicose; via.

Αρχαία Ελλάδα και Αναρχισμός - Ferraro, Nevinson, Small, Burton, Morgan, Marshall

The Nrf2/SKN-1-dependent glutathione S-transferase π ...nasslab.com/sites/default/files/publications/settivari_neurtox2013.pdf · (Burton and Guilarte, 2009). Individuals with man-

ΔG/G Extraction From High- P t Hadron Pairs at COMPASS Ahmed El Alaoui Nuclear Physics School, Erice, 16-24 September 2007 On Behalf Of COMPASS Collaboration.

Quick Review for E12-11-007 Asymmetries in SIDIS (e, e’ π ± ) on a Long. Pol. 3 He Target

High-energy spin physics with hadron beams€¦ · Efremov, Goeke, Pobylitsa, 2000; Goeke, Pobylitsa, Polyakov, Urbano, 2001 SIDIS data indicates j d ujat least not much larger than

10-free energychem.ws/dl-1014/10-free_energy.pdfExp 10: Borax Dissolution Your job is to … Determine the ΔG˚ for borax dissolving in water by ﬁrst determining the ΔH˚ and ΔS˚

Prof. F.Tottola IPSIA E.Fermi Verona 1 ΔG = ΔH - T ΔS.

CINÉTICA ENZIMÁTICA - debiq.eel.usp.brjoaobatista/aula2cineticaenzimatica.pdf · ΔG'º: energia livre padrão bioquímica; ΔG‡: energia de ativação S-P: do(s) substrato(s);

Quantifier la chaleur dégagée par une réaction (ΔH, métabolisme) Evolution dun système (ΔG, transport actif passif, couplage entre réactions) Equibres.

28-Nov-131 Riassunto della lezione precedente Semi-Inclusive DIS (SIDIS) : formalismo e interpretazione in QPM ipotesi fattorizzazione universalità delle.

Studies of Partonic Distributions using Kaon SIDIS · 2019. 6. 3. · • COMPASS: sidis m-NH3 (2010) compatible with zero. • ATLAS results (2012) suggest that at small x the strangeness

Measurement of Thermodynamic Properties - univie.ac.at · Measurement of Thermodynamic Properties For equilibrium calculations we need: • Equilibrium constant K or ΔG for a reaction

Chemical Equilibrium I. A State of Dynamic Balance 1N 2 (g) 3H 2(g) +2NH 3(g) ΔG 0 = -33.1 kJ The reaction is spontaneous under standard conditions The.

Gibbs Free Energy Gibbs Free Energy (G) is a measure of enthalpy (heat) taking entropy (randomness) into account ΔG R ° is a measure of the driving force.