Available continuum profiles

Continuum Profiles

This module defines all continuum profile functions available in sheap. Each function is JAX-compatible and decorated with @with_param_names to provide consistent parameter naming for fitting routines.

Profiles

• linear : Linear continuum (slope + intercept).

• powerlaw : Standard power law anchored at λ₀=5500 Å.

• brokenpowerlaw : Two-slope power law with a break wavelength.

• logparabola : Log-parabolic shape with curvature term.

• exp_cutoff : Power law with exponential cutoff.

• polynomial : Polynomial expansion.

Constants

• delta0 : Reference wavelength (5500 Å) used for continuum scaling.

Notes

• All functions take wavelength arrays in Ångström and return dimensionless

  continuum templates scaled by their amplitude parameter.

• The reference wavelength delta0 ensures consistent normalization

  across continuum forms.

brokenpowerlaw(xs, params)

Broken power-law continuum profile.

\[\begin{split}f(\lambda) = \begin{cases} A \left(\dfrac{\lambda}{\lambda_0}\right)^{\alpha_1}, & \text{if } \lambda < x_{\text{break}} \\ A \, x_{\text{break}}^{\alpha_1 - \alpha_2} \left(\dfrac{\lambda}{\lambda_0}\right)^{\alpha_2}, & \text{otherwise} \end{cases}\end{split}\]

Parameters:

• xs (jnp.ndarray) – Wavelengths in Ångström.

• params (array-like) –

  • params[0]: Amplitude \(A\)

  • params[1]: Slope below break \(\alpha_1\)

  • params[2]: Slope above break \(\alpha_2\)

  • params[3]: Break wavelength \(x_{break}\) in Ångström

Returns:

Evaluated flux.

Return type:

jnp.ndarray

delta0 = 5500.0

Normalization wavelength in Ångström used for continuum models (λ/λ₀)

exp_cutoff(xs, params)

Power-law with exponential cutoff.

\[f(\lambda) = A \cdot \left(\frac{\lambda}{\lambda_0}\right)^{-\alpha} \cdot \exp\left(-\frac{\lambda}{x_{cut}}\right)\]

Parameters:

• xs (jnp.ndarray) – Wavelengths in Ångström.

• params (array-like) –

  • params[0]: Amplitude \(A\)

  • params[1]: Slope \(\alpha\)

  • params[2]: Cutoff wavelength \(x_{cut}\) in Ångström

Returns:

Evaluated flux.

Return type:

jnp.ndarray

linear(xs, params)

Linear continuum profile.

\[f(\lambda) = \text{intercept} + \text{slope} \cdot \left(\frac{\lambda}{\lambda_0}\right)\]

Parameters:

• xs (jnp.ndarray) – Wavelengths in Ångström.

• params (array-like) –

  • params[0]: Slope

  • params[1]: Intercept

Returns:

Evaluated flux.

Return type:

jnp.ndarray

logparabola(xs, params)

Log-parabolic continuum profile.

\[f(\lambda) = A \cdot \left(\frac{\lambda}{\lambda_0}\right)^{-\alpha - \beta \cdot \log(\lambda / \lambda_0)}\]

Parameters:

• xs (jnp.ndarray) – Wavelengths in Ångström.

• params (array-like) –

  • params[0]: Amplitude \(A\)

  • params[1]: Spectral index \(\alpha\)

  • params[2]: Curvature parameter \(\beta\)

Returns:

Evaluated flux.

Return type:

jnp.ndarray

powerlaw(xs, params)

Power-law continuum profile.

\[f(\lambda) = A \cdot \left(\frac{\lambda}{\lambda_0}\right)^{\alpha}\]

Parameters:

• xs (jnp.ndarray) – Wavelengths in Ångström.

• params (array-like) –

  • params[0]: Slope \(\alpha\)

  • params[1]: Amplitude \(A\)

Returns:

Evaluated flux.

Return type:

jnp.ndarray