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Multiple Sheet Beam Instability of Current Sheets in Striped Relativistic Winds Jonathan Arons University of California, Berkeley 1.

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Presentation on theme: "Multiple Sheet Beam Instability of Current Sheets in Striped Relativistic Winds Jonathan Arons University of California, Berkeley 1."— Presentation transcript:

1 Multiple Sheet Beam Instability of Current Sheets in Striped Relativistic Winds Jonathan Arons University of California, Berkeley 1

2 Crab Vela G54.1 J2229 B1706 J0538 Ng & Romani Torii in rotational equator - small aspect ratio - /r ~ 0.1(Crab), smaller in others Rings and Torii As if energy fluxin a narrow latitude sector 2

3 Poynting Flux dominated wind strongest toward equator Magic: If, nebular response ~ images ( Komisssarov & Lyubarsky 2003; del Zanna et al 2004; Bogovalov et al 2005 ) “Unmagnetized” equatorial channel

4 Outer Wind Properties, : Current Sheet, carries return current Sheet Opening Angle: Like Split Monopole of Aligned Rotator Without Dissipation: Relativistic Beam: “protons” (i=0), e - (i=p) 4

5 PSRi Crab80 o Vela65 o 1509-5860 o 1706-4440 o 0630+17 25 o 1055+08 70 o Observed PSR = oblique rotators Gamma Ray PSR, i from Romani and Yadigarglou outer gap model Equatorial Current SheetFrozen-in wave 5

6 Force Free Simulation of i=60 o Rotator (Spitkovsky) Current Sheet Separating Stripes (Bogovalov) i=60 o i=9 o Inner Wind: Magnetically Striped 6

7 Stripe Dissipation If wrinkled current dissipates, striped field dissipates, magnetic energy coverts to flow kinetic energy, “heat” & high frequency radiation, strong waves - partition? Sheet Dissipation: Tearing of one locally ~ plane sheet? (Coroniti; too slow? - Kirk & co.) Insufficient Current? (everybody) sheet strong waves? - Melatos-vacuum) 7

8 Other Effects Leading to Dissipation: Toroidal Sheets: kink instability, growth rate ~ c/r ~ expansion rate - slow? saturates at nonlinear kink, then tearing? MHD detonation - explosive growth of ballooning modes, creates small scale turbulence - perhaps applies if wind acceleration large 8

9 Stream Instability of Multiple Sheets Current sheets = transmission lines Current = charged particle beam injected by source - Y or X line at LC | | =I GJ =Goldreich-Julian Current In absence of dissipation, beams flow adiabatically in narrow channel 9

10 2H (adiabatic EOS) Sheets swallow stripes (H > R L ): Simplified Sheet Structure (Crab)only if - sheets survive? 10 (protons)

11 Sheets Interact - Two Stream (Weibel-like) instability Thin Sheet (kr L <<1) dynamics as if each sheet is unmagnetized although intersheet medium MHD x 0 =R L << r x0x0 11

12 Two Symmetric Sheet Instability Imagine Magnetic disturbance at each sheet - Alfven pol j 0 x force compresses each sheet’s surface density into filaments parallel to j 0 Surface current filaments reinforce - Weibel instability in flatland RLRL Growth Rate 2 symmetric sheets = purely growing in proper frame 12

13 Proper Growth Rate (v A =c, v beam =c, sheet thickness = ) Growth rate > expansion rate for 13

14 Saturation - Magnetic Trapping beam particles scattered by self fields 14 Growth & Trapping Saturation of Spatially Distributed Weibel (Spitkovsky & JA) shock - transient growth and decay; current sheet is driven but end result will “always” be magnetic turbulence that scatters particles

15 Anomalous Resistivity in Sheets - rapid expansion of sheets, destruction of intersheet field? (Coroniti’s model) Resistive electric field in sheet - equilibrium beam energy (?) Many sheets, sheet strength j 0 declines with r: radiation of long wavelength EM waves (fast modes shocks) of relativistic amplitude? Anomalous resistance, scattering: radiation (synchroton), sheets radiate - pulsed emission? (Kirk et al; historically, JA)

16 Asymptotically low s due to dissipation, sheets don’t survive even to R m = current starvation radius, never mind to termination shock Dissipation broadens sheets much faster than in adiabatic expansion (sheet beams much denser than Coroniti’s sheets) - if stripe death due to anomalous resistivity, rate may decline as sheets broaden?; - reconnection (tearing modes, drift-kink,....) maintains high dissipation rate (shortens length scale along B 0 directions) - conversion to strong waves (and surfing acceleration) exists? competes with/exceeds resistive dissipation? Inner wind (r << R m ) creates observable synchrotron emission from sheets, observable pulses? Or, steady emission? (low level unpulsed emission exists) 16 Conclusion(?)

17 Jets - striped jets exist? (Konigl, Spruit) - related dissipation mechanisms 17

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