Inferring possible magnetic field strength of accreting inflows in EXor-type objects from scaled laboratory experiments

Abstract: Aims. EXor-type objects are protostars that display powerful UV-optical outbursts caused by intermittent and powerful events of magnetospheric accretion. These objects are not yet well investigated and are quite difficult to characterize. Several parameters, such as plasma stream velocities, characteristic densities, and temperatures, can be retrieved from present observations. As of yet, however, there is no information about the magnetic field values and the exact underlying accretion scenario is also under … Show more

“…These observations are supported by numerical simulations of the jet (see section 6), which show the formation of a cavity surrounded by an enhanced magnetic field. It is also in agreement with experiments studying the simpler case of a spherical/semi-spherical laser ablated plasma expanding into a transverse magnetic field [6,[9][10][11]14]. While the jets observed in this experiment differ in that they are created independently of the magnetic field, the peripheral plasma exhibits comparable structures.…”

“…Laboratory jets and shocks are studied through a number of different approaches, such as using high-current Z-pinch facilities [3,4], plasma guns [5,6], high power lasers combined with complex target configurations [7,8], as well as through the interaction of a spherically expanding laser-generated plasma with an externally applied magnetic field [9][10][11][12][13][14].…”

Laser-generated supersonic plasma jets and shocks in a transverse magnetic field

“…These observations are supported by numerical simulations of the jet (see section 6), which show the formation of a cavity surrounded by an enhanced magnetic field. It is also in agreement with experiments studying the simpler case of a spherical/semi-spherical laser ablated plasma expanding into a transverse magnetic field [6,[9][10][11]14]. While the jets observed in this experiment differ in that they are created independently of the magnetic field, the peripheral plasma exhibits comparable structures.…”

“…Laboratory jets and shocks are studied through a number of different approaches, such as using high-current Z-pinch facilities [3,4], plasma guns [5,6], high power lasers combined with complex target configurations [7,8], as well as through the interaction of a spherically expanding laser-generated plasma with an externally applied magnetic field [9][10][11][12][13][14].…”

Laser-generated supersonic plasma jets and shocks in a transverse magnetic field