ScatteringField#
Examples using this class are:
Acoustofluidics 2022: ARF Comparison
Acoustofluidics 2022: Plotting the Scattering Field
Pressure Plots for different theories
- class osaft.solutions.hasegawa1969.scattering.ScatteringField(f, R_0, rho_s, nu_s, E_s, rho_f, c_f, p_0, wave_type, position=None, N_max=5)[source]#
Bases:
BaseHasegawa
,BaseScattering
Scattering field class for Hasegawa (1969)
- Parameters:
f (Frequency | float) – Frequency [Hz]
R_0 (Sphere | float) – Radius of the sphere [m]
rho_s (float) – Density of the solid elastic sphere [kg/m^3]
E_s (float) – Young’s modulus [Pa]
nu_s (float) – Poisson’s ratio of the solid sphere [-]
rho_f (float) – Density of the fluid [kg/m^3]
c_f (float) – Speed of sound of the fluid [m/s]
p_0 (float) – Pressure amplitude of the field [Pa]
wave_type (WaveType) – progressive wave
position (None | float, optional) – Position in the standing wave field [rad]
Default:None
N_max (int, optional) – Highest order mode included in the computation [-]
Default:5
Public Data Attributes:
Inherited from
BaseHasegawa
supported_wavetypes
dimensionless wave number in the fluid [-]
dimensionless wave number in the particle, longitudinal direction [-]
dimensionless wave number in the particle, transversal direction [-]
ratio of densities [-]
Wraps to
osaft.core.backgroundfields.BackgroundField.position
Wraps to
osaft.core.backgroundfields.BackgroundField.wave_type
Wraps to
osaft.core.solids.ElasticSolid.rho_s
Wraps to
osaft.core.solids.ElasticSolid.E_s
Wraps to
osaft.core.solids.ElasticSolid.nu_s
Wraps to
osaft.core.fluids.InviscidFluid.c_f
Wraps to
osaft.core.solids.ElasticSolid.k_l
Wraps to
osaft.core.solids.ElasticSolid.k_t
Wraps to
osaft.core.fluids.InviscidFluid.k_f
Inherited from
BaseSphereFrequencyComposite
Wrapper for
osaft.core.geometries.Sphere.R_0
Wrapper for
osaft.core.geometries.Sphere.area
Wrapper for
osaft.core.geometries.Sphere.volume
Inherited from
BaseFrequencyComposite
wrapper for
osaft.core.frequency.Frequency.f
wrapper for
osaft.core.frequency.Frequency.omega
Inherited from
BaseSolution
supported_wavetypes
returns the wave type of the solution
Inherited from
BaseScattering
Cutoff mode number for infinite sums
field
omega
R_0
rho_f
k_f
Public Methods:
radial_particle_velocity
(r, theta, t[, mode])Radial particle velocity [m/s]
tangential_particle_velocity
(r, theta, t[, mode])Tangential particle velocity [m/s]
Wrapper to the fluid scattering coefficients for an inviscid fluid
V_r_sc
(n, r)Radial scattering field velocity term of mode n without Legendre coefficients
V_theta_sc
(n, r)Tangential scattering field velocity term of mode n without Legendre coefficients
c_n
(n)Coefficient \(c_n\) [-]
c_n_A
(n)Coefficient \(c_n\) [m]
a_n
(n)Coefficient \(a_n\) [m]
b_n
(n)Coefficient \(b_n\) [m]
Inherited from
BaseHasegawa
A_in
(n)Inherited from
BaseFrequencyComposite
Returns all properties that are settable.
Inherited from
BaseSolution
Inherited from
BaseScattering
radial_acoustic_fluid_velocity
(r, theta, t, ...)Returns the value for the radial acoustic velocity in [m/s].
tangential_acoustic_fluid_velocity
(r, theta, ...)Returns the value for the tangential acoustic velocity in [m/s].
pressure
(r, theta, t, scattered, incident[, ...])Returns the acoustic pressure [Pa].
Wrapper to the fluid scattering coefficients for an inviscid fluid
velocity_potential
(r, theta, t, scattered, ...)Returns the velocity potential of the fluid in [m^2/s].
radial_particle_velocity
(r, theta, t[, mode])Returns the value for the radial particle velocity in [m/s].
tangential_particle_velocity
(r, theta, t[, mode])Returns the value for the tangential particle velocity in [m/s].
radial_particle_displacement
(r, theta, t[, mode])Particle displacement in radial direction
tangential_particle_displacement
(r, theta, t)Particle displacement in tangential direction
radial_mode_superposition
(radial_func, r, ...)Returns either a single mode (
mode=int
) or a the sum untilN_max
(mode=None
).Returns either a single mode (
mode=int
) or a the sum untilN_max
(mode=None
).V_r_i
(n, r)Radial incident field velocity term of mode n without Legendre coefficients
V_theta_i
(n, r)Tangential incident field velocity term of mode n without Legendre coefficients
V_r_sc
(n, r)Radial scattering field velocity term of mode n without Legendre coefficients
V_theta_sc
(n, r)Tangential scattering field velocity term of mode n without Legendre coefficients
V_r
(n, r, scattered, incident)Superposition of
V_r_sc()
andV_r_i()
depending onscattered
andincident
V_theta
(n, r, scattered, incident)Superposition of
V_theta_sc()
andV_theta_i()
depending onscattered
andincident
- A_in(n)#
Wraps to
osaft.core.backgroundfields.BackgroundField.A_in
- Return type:
complex
- V_r(n, r, scattered, incident)#
Superposition of
V_r_sc()
andV_r_i()
depending onscattered
andincident
At least one of the two must be True.
- Parameters:
n (
int
) – moder (
float
) – radial coordinate [m]scattered (
bool
) – add scattered fieldincident (
bool
) – add incident
- Return type:
complex
- V_r_i(n, r)#
Radial incident field velocity term of mode n without Legendre coefficients
Returns radial incident field velocity in [m/s]
- Parameters:
n (int) – mode
r (float | Sequence) – radial coordinate [m]
- Return type:
complex
- V_r_sc(n, r)[source]#
Radial scattering field velocity term of mode n without Legendre coefficients
Returns radial scattering field velocity in [m/s]
- Parameters:
n (int) – mode
r (float | Sequence[float]) – radial coordinate [m]
- Return type:
complex | Sequence[complex]
- V_theta(n, r, scattered, incident)#
Superposition of
V_theta_sc()
andV_theta_i()
depending onscattered
andincident
At least one of the two must be True.
- Parameters:
n (
int
) – moder (
float
) – radial coordinate [m]scattered (
bool
) – add scattered fieldincident (
bool
) – add incident
- Return type:
complex
- V_theta_i(n, r)#
Tangential incident field velocity term of mode n without Legendre coefficients
Returns tangential incident field velocity in [m/s]
- Parameters:
n (int) – mode
r (float | Sequence) – radial coordinate [m]
- Return type:
complex
- V_theta_sc(n, r)[source]#
Tangential scattering field velocity term of mode n without Legendre coefficients
Returns tangential scattering field velocity in [m/s]
- Parameters:
n (int) – mode
r (float | Sequence[float]) – radial coordinate [m]
- Return type:
complex | Sequence[complex]
- a_n(n)[source]#
Coefficient \(a_n\) [m]
(determined by boundary conditions)
- Parameters:
n (
int
) – mode [-]- Return type:
complex
- b_n(n)[source]#
Coefficient \(b_n\) [m]
(determined by boundary conditions)
- Parameters:
n (
int
) – mode [-]- Return type:
complex
- c_n_A(n)[source]#
Coefficient \(c_n\) [m]
(Eq. 7)
- Parameters:
n (
int
) – mode [-]- Return type:
complex
- check_wave_type()#
Checks if
wave_type
is insupported_wavetypes
- Raises:
WrongWaveTypeError – If
wave_type
is not supported- Return type:
None
- copy()#
Returns a copy of the object
- Return type:
- classmethod input_variables()#
Returns all properties that are settable.
Returns a list of the names of all properties that are settable, i.e. all properties that wrap a PassiveVariable.
- Return type:
list
[str
]
- potential_coefficient(n)[source]#
Wrapper to the fluid scattering coefficients for an inviscid fluid
This method must be implemented by every theory to have a common interface for other modules.
- Parameters:
n (
int
) – mode- Return type:
complex
- pressure(r, theta, t, scattered, incident, mode=None)#
Returns the acoustic pressure [Pa].
- Parameters:
r (float | Sequence) – radial coordinate [m]
theta (float | Sequence) – tangential coordinate [rad]
t (float | Sequence) – time [s]
scattered (bool) – add scattered field
incident (bool) – add incident
mode (None | int, optional) – specific mode number of interest; if None then all modes until
N_max
Default:None
- Return type:
complex
- radial_acoustic_fluid_velocity(r, theta, t, scattered, incident, mode=None)#
Returns the value for the radial acoustic velocity in [m/s].
This method must be implemented by every theory to have a common interface for other modules.
- Parameters:
r (float | Sequence) – radial coordinate [m]
theta (float | Sequence) – tangential coordinate [rad]
t (float | Sequence) – time [s]
scattered (bool) – scattered field contribution
incident (bool) – incident field contribution
mode (None | int, optional) – specific mode number of interest; if None then all modes until
N_max
Default:None
- Return type:
complex | NDArray
- radial_mode_superposition(radial_func, r, theta, t, mode=None)#
Returns either a single mode (
mode=int
) or a the sum untilN_max
(mode=None
).If
mode=int
the formula is\[e^{-i\omega t}\, f_{\text{mode}}(r) \,P_{\text{mode}}(\cos\theta)\]If
mode=None
the formula is\[e^{-i\omega t} \sum_{n=0}^{\text{N}_{\text{max}}} \,f_n(r) \,P_n(\cos\theta)\]where \(f_\text{n}(r)\) is the
radial_func(n, r)
passed to the method.- Parameters:
radial_func (Callable[[int, float], complex]) – radial function dependent on
r
r (float | Sequence) – radial coordinate [m]
theta (float | Sequence) – tangential coordinate [rad]
t (float | Sequence) – time [s]
mode (int, optional) – specific mode number of interest; if None then all modes until
N_max
Default:None
- Return type:
complex | NDArray
- radial_particle_displacement(r, theta, t, mode=None)#
Particle displacement in radial direction
Returns the value of the particle displacement in radial direction in [m]
- Parameters:
r (float | Sequence) – radial coordinate [m]
theta (float | Sequence) – tangential coordinate [rad]
t (float | Sequence) – time [s]
mode (None | int, optional) – specific mode number of interest; if None that all modes until
N_max
Default:None
- Return type:
complex | NDArray
- radial_particle_velocity(r, theta, t, mode=None)[source]#
Radial particle velocity [m/s]
- Parameters:
r (float | Sequence[float]) – radial coordinate [m]
theta (float | Sequence[float]) – tangential coordinate [rad]
t (float | Sequence[float]) – time [s]
mode (None | int, optional) – mode
Default:None
- Return type:
float | Sequence[float]
- tangential_acoustic_fluid_velocity(r, theta, t, scattered, incident, mode=None)#
Returns the value for the tangential acoustic velocity in [m/s].
This method must be implemented by every theory to have a common interface for other modules.
- Parameters:
r (float | Sequence) – radial coordinate [m]
theta (float | Sequence) – tangential coordinate [rad]
t (float | Sequence) – time [s]
scattered (bool) – scattered field contribution
incident (bool) – incident field contribution
mode (None | int, optional) – specific mode number of interest; if None then all modes until
N_max
Default:None
- Return type:
complex | NDArray
- tangential_mode_superposition(tangential_func, r, theta, t, mode)#
Returns either a single mode (
mode=int
) or a the sum untilN_max
(mode=None
).If
mode=int
the formula is\[e^{-i\omega t}\, f_\text{mode}(r) \,P^1_{\text{mode}}(\cos\theta)\]If
mode=None
the formula is\[e^{-i\omega t}\sum_{n=0}^{\text{N}_{\text{max}}} \,f_n(r) \,P^1_n(\cos\theta)\]where \(f_n(r)\) is the
tangential_func(n, r)
passed to the method.- Parameters:
tangential_func (Callable[[int, float], complex]) – tangential function dependent on
r
r (float | Sequence) – radial coordinate [m]
theta (float | Sequence) – tangential coordinate [rad]
t (float | Sequence) – time [s]
mode (int) – specific mode number of interest; if None then all modes until
N_max
- Return type:
complex | NDArray
- tangential_particle_displacement(r, theta, t, mode=None)#
Particle displacement in tangential direction
Returns the value of the particle displacement in tangential direction in [m]
- Parameters:
r (float | Sequence) – radial coordinate [m]
theta (float | Sequence) – tangential coordinate [rad]
t (float | Sequence) – time [s]
mode (None | int, optional) – specific mode number of interest; if None that all modes until
N_max
Default:None
- Return type:
complex | NDArray
- tangential_particle_velocity(r, theta, t, mode=None)[source]#
Tangential particle velocity [m/s]
- Parameters:
r (float | Sequence[float]) – radial coordinate [m]
theta (float | Sequence[float]) – tangential coordinate [rad]
t (float | Sequence[float]) – time [s]
mode (None | int, optional) – mode
Default:None
- Return type:
float | Sequence[float]
- velocity_potential(r, theta, t, scattered, incident, mode=None)#
Returns the velocity potential of the fluid in [m^2/s].
- Parameters:
r (float | Sequence) – radial coordinate [m]
theta (float | Sequence) – tangential coordinate [rad]
t (float | Sequence) – time [s]
scattered (bool) – add scattered field
incident (bool) – add incident
mode (None | int, optional) – specific mode number of interest; if None then all modes until
N_max
Default:None
- Return type:
complex
- property E_s: float#
Wraps to
osaft.core.solids.ElasticSolid.E_s
- property N_max#
Cutoff mode number for infinite sums
- Getter:
returns number of infinite sum term
- Setter:
automatically invokes
osaft.core.variable.BaseVariable.notify()
- property R_0: float#
Wrapper for
osaft.core.geometries.Sphere.R_0
- property area: float#
Wrapper for
osaft.core.geometries.Sphere.area
- property c_f: float#
Wraps to
osaft.core.fluids.InviscidFluid.c_f
- property f: float#
wrapper for
osaft.core.frequency.Frequency.f
- property k_f: float#
Wraps to
osaft.core.fluids.InviscidFluid.k_f
- property k_s_l: float#
Wraps to
osaft.core.solids.ElasticSolid.k_l
- property k_s_t: float#
Wraps to
osaft.core.solids.ElasticSolid.k_t
- property kappa_f: float#
- property lambda_rho: float#
ratio of densities [-]
- property nu_s: float#
Wraps to
osaft.core.solids.ElasticSolid.nu_s
- property omega: float#
wrapper for
osaft.core.frequency.Frequency.omega
- property p_0: float#
- property position: float#
Wraps to
osaft.core.backgroundfields.BackgroundField.position
- property rho_f: float#
- property rho_s: float#
Wraps to
osaft.core.solids.ElasticSolid.rho_s
- property volume: float#
Wrapper for
osaft.core.geometries.Sphere.volume
- property wave_type: WaveType#
Wraps to
osaft.core.backgroundfields.BackgroundField.wave_type
- property x_f: float#
dimensionless wave number in the fluid [-]
- property x_s_l: float#
dimensionless wave number in the particle, longitudinal direction [-]
- property x_s_t: float#
dimensionless wave number in the particle, transversal direction [-]