NONLINEAR MHD WAVES THE INTERESTING INFLUENCE OF FIREHOSE AND MIRROR IN ASTROPHYSICAL PLASMAS. Jono Squire (Caltech) UCLA April 2017
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1 NONLINEAR MHD WAVES THE INTERESTING INFLUENCE OF FIREHOSE AND MIRROR IN ASTROPHYSICAL PLASMAS Jono Squire (Caltech) UCLA April 2017 Along with: E. Quataert, A. Schekochihin, M. Kunz, S. Bale, C. Chen, P. Hellinger, M. Strumik
2 INTRACLUSTER MEDIUM (ICM) Image: NASA X-Ray Optical
3 LET S LOOK AT A FEW PARAMETERS e.g., Rosin et. al 2010, Hydra A Kunz et. al 2010 n cm 3 T K 3keV B 7 µg v th,i 700 kms 1 i 0.07s 1 ii s 1 U 250 kms 1 Dimensionless Plasma motions L cm i ii Strongly magnetized M 0.3 Incompressible? Re 60 Pm = P magnetic P thermal 100 Turbulent? Approximate equipartition ii ru 400 Not very collisional
4 PERTURB MAGNETIC FIELD? e.g., sound (ion-acoustic) wave see also Verscharen et al. (2016)
5 PERTURB MAGNETIC FIELD? If! & ii (wavelength < 0.01*galaxy size) µ = mv2? 2B conserved i L o i Z distribution function f is gyrotropic Z p? = dv v?f 2 p k = dv v p = p? p k 2 f k B p? p B p
6 PERTURB MAGNETIC FIELD? B p p Momentum stress due to p ~ 100*magnetic pressure MHD completely wrong? Even though L o i 10 5
7 PRESSURE ANISOTROPY INSTABILITIES p p & 1 p OR p. 2 Mirror Instability Firehose Instability Kunz et al. 2014
8 ICM WAVE n n > 0.01?? Firehose/mirror excited very easily. Act to limit p Saturation controls large-scale dynamics i / ru (k i ) they act instantaneously, enormous scale separation
9 COLLISIONLESS HIGH- PLASMAS ARE ALWAYS UNSTABLE Melville et al Fluctuation amplitude B ICM example Bale et al. 2009
10 A COMPLETELY DIFFERENT TYPE OF FLUID DYNAMICS where the nonlinear behavior of mirror/firehose instability control the plasma s viscosity/conductivity/resistivity? THIS TALK Firehose+mirror fundamental to plasma physics Dynamics can differ (a lot) from MHD. Simplest to study: waves (but we really care about turbulence). Explore some parameters required to see such effects in the laboratory.
11 MHD WAVES THE SHEAR-ALFVÉN WAVE Fundamental to turbulence (Goldreich & Sridhar 1996) Ubiquitous in the solar wind and experiments Magnetic tension acts as spring e.g., linearly polarized standing wave B = B 0 ẑ + B? (z)ˆx u = u? (z)ˆx
12 COLLISIONLESS WAVES INTERRUPTION db dt < 0 p<0 IF p = B 2 r [ˆbˆb(B 2 + p)] = 0 Firehose limit p p = 2 Magnetic tension THE WAVE HAS REMOVED ITS OWN RESTORING FORCE
13 COLLISIONLESS WAVES INTERRUPTION µ / p? B p B ( B 2?) p = B 2 0 IF B? B 0 & 1/2 Firehose excited just as the wave loses restoring force Squire+2016,2017
14 COLLISIONLESS WAVES INTERRUPTION Interrupted 10 0 δb / β Normal
15 WE CAN SEE THIS EFFECT IN THE SOLAR WIND Measure B? B 0 u? v A 1/2 ( ) Bale + in prep (2016) MEASUREMENT SUPPORTS THEORY
16 2D-3V HYBRID SIMULATIONS Illustrate how firehose saturation controls MHD scales Transfer of energy directly from large to small no turbulence x Details of firehose mode s saturation and decay controls the MHD wave (e.g., Quest+1996, Matteini+2006, Hellinger+2008, Kunz+2014, Seough+2015, Melville+ 2016, ) x
17 OTHER MHD WAVES Slow and fast waves: pressure restoring force Can likely still propagate if they excite mirror/firehose Damping may decrease when this occurs? Verscharen et al. (2016): large-scale slow waves help isotropize the solar wind? Decay rate Low amplitude: strong damping? Above mirror/firehose: less damping? Sound wave amplitude
18 IN THE LAB? NEED β 1 Magnetized Ω i > ν i and ρ i < L Ability to create large-amplitude waves/turbulence Shear-Alfvén waves Sound waves and λ wave > ρ i B B? B 0 & 1/2 B p p & 1
19 IN THE LAB? Some things to help Compared to B 2, instability thresholds reduced at moderate β (e.g., Hellinger+2008, Klein+2015) Need MHD firehose to interrupt wave, but would still see interesting fluctuations at kinetic thresholds Δp/B T /T Hellinger+2008 numerical fit β Oblique FH Parallel FH MHD FH β
20 IN THE LAB? Some things to help Combine waves/perturbations with other methods? E.g., near firehose threshold, launch shear-alfvén wave Reduced wave speed ( p<0) Interrupt +excite firehose at much lower amplitude E.g., long wavelength density wave near mirror threshold Wave excites mirrors (or IC) as it passes, study their decay.
21 TO CONCLUDE Lots of astrophysical plasmas follow a different fluid dynamics, which we don t yet understand e.g., Firehose/mirror fundamental control the dynamics on the largest scales Fundamental aspect of plasma physics not yet studied in the lab
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