Result¶
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class
nhdspy.
Result
(input, run_output)¶ Bases:
object
Result of running the dispersion solver.
Attributes: EyEx
The electric field component ratio \(E_{y} / E_{x}\).
EzEx
The electric field component ratio \(E_{z} / E_{x}\).
kz
Wave vector normalised to the proton intertial length (\(kd_{p}\)).
omega_imag
Imaginary part of frequency normalised to the proton gyro-frequency (\(\gamma / \Omega_{p}\)).
omega_real
Real part of frequency normalised to the proton gyro-frequency (\(\omega / \Omega_{p}\)).
Attributes Summary
EyEx
The electric field component ratio \(E_{y} / E_{x}\). EzEx
The electric field component ratio \(E_{z} / E_{x}\). kz
Wave vector normalised to the proton intertial length (\(kd_{p}\)). omega_imag
Imaginary part of frequency normalised to the proton gyro-frequency (\(\gamma / \Omega_{p}\)). omega_real
Real part of frequency normalised to the proton gyro-frequency (\(\omega / \Omega_{p}\)). Attributes Documentation
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EyEx
¶ The electric field component ratio \(E_{y} / E_{x}\). Returned as complex numbers.
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EzEx
¶ The electric field component ratio \(E_{z} / E_{x}\). Returned as complex numbers.
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kz
¶ Wave vector normalised to the proton intertial length (\(kd_{p}\)).
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omega_imag
¶ Imaginary part of frequency normalised to the proton gyro-frequency (\(\gamma / \Omega_{p}\)).
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omega_real
¶ Real part of frequency normalised to the proton gyro-frequency (\(\omega / \Omega_{p}\)).