[IGPP Everyone] POSTPONED ((TOMORROW: Space Physics Seminar - Fri. 1/8, 3:30pm: Ion Heating in Mid-Magnetotail Reconnection Jets (H. Hietala, UCLA EPSS)))

Thu Jan 7 21:37:05 PST 2016

Apologies for the quadruplicate email, yet I think many people will appreciate not having to walk over and find an empty room.

I should have sent out with the correct title: Tomorrow’s space physics seminar has been POSTPONED till further notice. 

Vassilis

Due to continuing illness of the speaker (very persistent flu) this Friday’s space physics seminar has to be postponed. 

We will announce a new date and time soon. Best wishes to Heli for a speedy recovery!

Vassilis

From: Emmanuel V. Masongsong [mailto:emasongsong at igpp.ucla.edu] 
Sent: Thursday, January 07, 2016 3:40 PM
To: emasongsong
Cc: EPSS Everyone; everyone
Subject: TOMORROW: Space Physics Seminar - Fri. 1/8, 3:30pm: Ion Heating in Mid-Magnetotail Reconnection Jets (H. Hietala, UCLA EPSS)

SPACE PHYSICS SEMINAR

DEPARTMENT OF EARTH, PLANETARY, AND SPACE SCIENCES

DEPARTMENT OF ATMOSPHERIC AND OCEANIC SCIENCES

UNIVERSITY OF CALIFORNIA, LOS ANGELES

(EPSS M288A, AOS M275A)

Heli Hietala

UCLA EPSS/IGPP

Ion Heating in Mid-Magnetotail Reconnection Jets 

Magnetic reconnection redistributes energy by releasing magnetic energy into particle energies-high speed bulk flows, heating, and particle acceleration. With near-Earth in situ observations, we have access to different parameter regimes: The magnetotail has typically a very large magnetic shear and symmetric boundary conditions. Reconnection at the magnetopause, in contrast, usually takes place under asymmetric boundary conditions and a variety of shear angles. Finally, reconnecting current sheets in the solar wind are typically large scale and not affected by nearby obstacles, and observations are typically made far downstream from the X-line. As such, magnetotail reconnection, especially at lunar distances where the effect of the Earth's dipole is small, should be closest to simple models.

Ion heating has recently been studied systematically in solar wind and magnetopause reconnection, but not in the magnetotail. The energetics of magnetotail reconnection jets are particularly interesting as the available magnetic energy per particle (B_in^2/mu0*n_in = m_iVA,in^2) is typically orders of magnitude higher and the inflow plasma beta much lower than in the solar wind and at the magnetopause.

We use ARTEMIS observations of fast jets at the lunar distance to study ion heating in reconnection. In particular, we address (i) the ion temperature increase (ii) ion temperature anisotropy and firehose instability, and (iii) the underlying ion dynamics. We examine the spatial structure of the ion temperature across the exhaust, and compare with particle-in-cell simulations. We find that the temperature parallel to the magnetic field dominates near the edges of the jet, while the very center of the exhaust has Tperp > Tpara, indicating Speiser-like ion motion.

Friday, January 8, 2016

Room 6704 Geology

3:30 - 5:00 PM

Refreshments served after the seminar in Room 6850.

In-Charge
V. Angelopoulos

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