3,072 research outputs found
Boltzmann expansion in a radiofrequency conical helicon thruster operating in xenon and argon
A low pressure (~ 0.5 mTorr in xenon and ~ 1 mTorr in argon) Boltzmann expansion is
experimentally observed on axis within a magnetized (60 to 180 G) radiofrequency (13.56 MHz)
conical helicon thruster for input powers up to 900 W using plasma parameters measured with a
Langmuir probe. The axial forces, respectively, resulting from the electron and magnetic field
pressures are directly measured using a thrust balance for constant maximum plasma pressure
and show a higher fuel efficiency for argon compared to xenon
Interface creation and stress dynamics in plasma-deposited silicon dioxide films
The stress in amorphous silicon dioxide filmgrown by plasma-assisted deposition was investigated both during and after film growth for continuously and intermittently depositedfilms. It is shown that an intermittent deposition leads to the creation of interfacial regions during film growth, but also causes dynamical structural change in already-deposited film which results in a significantly different stress-thickness profile measured after deposition.Film growth in the continuously depositedfilm was also monitored using an in situ laser reflection technique, and a strong change in stress was detected at about 145nm which was attributed to the onset of island coalescence
Plasma control by modification of helicon wave propagation in low magnetic fields
By making use of nonuniform magnetic fields, it is shown experimentally that control of helicon wave propagation can be achieved in a low pressure (0.08 Pa) expanding plasma. The m=1 helicon waves are formed during a direct capacitive to wave mode transition that occurs in a low diverging magnetic field(Bβ<3βmT). In this initial configuration, waves are prevented from reaching the downstream region, but slight modifications to the magnetic field allows the axial distance over which waves can propagate to be controlled. By changing the effective propagation distance in this way, significant modification of the density and plasma potential profiles can be achieved, showing that the rf power deposition can be spatially controlled as well. Critical to the modification of the wave propagation behavior is the magnetic field strength (and geometry) near the exit of the plasma source region, which gives electron cyclotron frequencies close to the wave frequency of 13.56 MHz
Detailed plasma potential measurements in a radio-frequency expanding plasma obtained from various electrostatic probes
On-axis plasma potential measurements have been made with an emissive probe in a low pressure (0.044 Pa) rf expanding plasma containing an ion beam. The beam is detected with a retarding field energy analyzer (RFEA), and is seen to disappear at high pressure (0.39 Pa). The emissive probe measurements are in very good agreement with corresponding measurements made with two separate RFEAs, and the results indicate that the floating potential of the strongly emitting probe gives an accurate measure of the plasma potential under the present conditions
Volume and surface propellant heating in an electrothermal radio-frequency plasma micro-thruster
The temporal evolution of neutral gas temperature over the first 5 min of operation for an electrothermal radio-frequency micro-thruster with nitrogen (N2) propellant was measured using rovibrational band matching of the second positive N2 system. Three distinct periods of gas heating were identified with time constants of Ο 1β=β8βΓβ10β»β΅ s, Ο 2β=β8βs, and Ο 3β=β100βs. The fast heating (Ο 1) is attributed to volumetric heating processes within the discharge driven by ion-neutral collisions. The slow heating (Ο 3) is from ion neutralization and vibrational de-excitation on the walls creating wall heating. The intermediate heating mechanism (Ο 2) is yet to be fully identified although some theories are suggested.This research was partially funded by the Australian
Space Research Program (APT project) and the Australian
Research Council Discovery Project (No. DP140100571)
Fifth Wheel for Jazz Band
Fifth Wheel is a composition written for Macalester\u27s jazz band that uses form and extended tonality to create an emotional narrative. It contains elements of both classical and jazz traditions: its form and unusual meter (5/4) from the former and improvisation and jazz harmony from the latter. Writing harmonies in an extended tonal language was of particular importance in this piece\u27s creation
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