Causal Viscous Hydrodynamic Response to High-Momentum Jets DNP Fall 2010 Cristina I. Moody

Causal Viscous Hydrodynamic Response to High-

Momentum Jets

DNP Fall 2010

Cristina I. Moody

Denes Molnar

Moody DNP 5 Nov 2010 2

MotivationFrom Hydro Expect

– Triangular Flow?

– Viscous Effects?– Sheer Stress

– Relaxation Time

Casalderrey-olana et al. Phys. Conf. Ser. 27, 22 (2005)v

F. Wang Strangeness Quark Matter 2009

Mach Cone Like Structures in Data


Hydrodynamics

• Ideal Hydrodynamic Model - No Viscosity

• Navier-Stokes Hydrodynamic Model – with Viscosity (but acausal)

• Israel-Stewart Hydrodynamic Model – Viscosity and Relation Time


Response to a Gaussian Source

• Very Simple Jet Model

• Temperature ~ 300 MeV

• Spherically Symmetric Ideal

• Spherically Symmetric (Linearized) Navier-Stokes (small k)

For QGP:


Comparison of Ideal, NS, & IS for Static Source



t=0.4 fm








• in &

• Jet velocity:

• Source:

• For more realistic source: Neufeld & Renk

• Parameters:– Gaussian Width = 0.35 fm– T ~ 300 MeV

Comparison of Ideal, NS, & IS Jets Moving Through the Fluid


Comparison of Ideal, NS, & ISJets Moving Through the Fluid

t = 1. fm

t = 5 fm

0 1/2 1 2


Comparison of Ideal, NS, & ISJets Moving Through the Fluid

Tau = 4 fm

t = 1. fm

t = 5 fm

Tau = 1 fmTau = 1/4 fm Tau = 2 fm


Momentum Flow

• Isochronous “bulk flow” freezeout -> azimuthal momentum distribution

• Assumptions: All particles are emitted locally in direction of momentum density


Momentum Flow


Momentum Flow


Summary & Future WorkSummary

Studied jet propagation in a static viscous medium using a simple Gaussian model• Relaxation time effects in Israel-Stewart hydro:

• Large effect at small times• Modest effect at later times• Waves for larger relaxation times appear more ideal

Future Work• Inhomogeneous evolving medium• More realistic jet source• Freezeout


Documents

Causal Viscous Hydrodynamic Response to High-Momentum Jets DNP Fall 2010 Cristina I. Moody