Posterior LaTeX Labels
RABIT features a set of predefined LaTeX labels for certain parameters. The following is a table showing the Bilby outputted parameter, and its corresponding LaTeX label in RABIT:
Key:
- Posterior Name: The name of the posterior parameter in a Bilby-outputted JSON file
- Posterior Label: Unrendered LaTeX of the posterior's label
- Unit Label: Unrendered LaTeX of the posterior's units (if available)
- Full LaTeX Label: Rendered LaTeX combining the posterior's label and unit label. This is the label that is used in RABIT
| Posterior name | Posterior label | Unit label | Full LaTeX label |
|---|---|---|---|
chirp_mass | \mathcal{M} | M_{\odot} | \(\mathcal{M} \ [M_{\odot}]\) |
mass_ratio | q | \(q\) | |
mass_1 | m_1^{\rm Lab} | M_{\odot} | \(m_1^{\rm Lab} \ [M_{\odot}]\) |
mass_2 | m_2^{\rm Lab} | M_{\odot} | \(m_2^{\rm Lab} \ [M_{\odot}]\) |
total_mass | M^{\rm Lab} | M_{\odot} | \(M^{\rm Lab} \ [M_{\odot}]\) |
mass_1_source | m_1^{\rm Source} | M_{\odot} | \(m_1^{\rm Source} \ [M_{\odot}]\) |
mass_2_source | m_2^{\rm Source} | M_{\odot} | \(m_2^{\rm Source} \ [M_{\odot}]\) |
total_mass_source | M^{\rm Source} | M_{\odot} | \(M^{\rm Source} \ [M_{\odot}]\) |
a_1 | a_1 | \(a_1\) | |
a_2 | a_2 | \(a_2\) | |
tilt_1 | \theta_1 | {\rm rad} | \(\theta_1 \ [{\rm rad}]\) |
tilt_2 | \theta_2 | {\rm rad} | \(\theta_2 \ [{\rm rad}]\) |
cos_tilt_1 | \cos{\theta_1} | \(\cos{\theta_1}\) | |
cos_tilt_2 | \cos{\theta_2} | \(\cos{\theta_2}\) | |
phi_12 | \phi_{12} | {\rm rad} | \(\phi_{12} \ [{\rm rad}]\) |
phi_jl | \phi_{\rm JL} | {\rm rad} | \(\phi_{\rm JL} \ [{\rm rad}]\) |
luminosity_distance | d_{\rm L} | {\rm Mpc} | \(d_{\rm L} \ [{\rm Mpc}]\) |
ra | {\rm RA} | {\rm rad} | \({\rm RA} \ [{\rm rad}]\) |
theta_jn | \theta_{JN} | {\rm rad} | \(\theta_{JN} \ [{\rm rad}]\) |
cos_theta_jn | \cos{\theta_{JN}} | \(\cos{\theta_{JN}}\) | |
psi | \psi | {\rm rad} | \(\psi \ [{\rm rad}]\) |
phase | \phi | {\rm rad} | \(\phi \ [{\rm rad}]\) |
phi_1 | \phi_1 | \(\phi_1\) | |
phi_2 | \phi_1 | \(\phi_1\) | |
geocent_time | t_c | {\rm s} | \(t_c \ [{\rm s}]\) |
azimuth | \epsilon | {\rm rad} | \(\epsilon \ [{\rm rad}]\) |
zenith | \kappa | {\rm rad} | \(\kappa \ [{\rm rad}]\) |
iota | \iota | {\rm rad} | \(\iota \ [{\rm rad}]\) |
cos_iota | \cos{\iota} | \(\cos{\iota}\) | |
redshift | z | \(z\) | |
eccentricity | e | \(e\) | |
dec | {\rm DEC} | {\rm rad} | \({\rm DEC} \ [{\rm rad}]\) |
chi_1 | \chi_1 | \(\chi_1\) | |
chi_2 | \chi_2 | \(\chi_2\) | |
chi_1_in_plane | \chi_1^{\perp} | \(\chi_1^{\perp}\) | |
chi_2_in_plane | \chi_2^{\perp} | \(\chi_2^{\perp}\) | |
chi_eff | \chi_{\rm eff} | \(\chi_{\rm eff}\) | |
chi_p | \chi_{\rm p} | \(\chi_{\rm p}\) | |
spin_1x | S_{1,x} | \(S_{1,x}\) | |
spin_1y | S_{1,y} | \(S_{1,y}\) | |
spin_1z | S_{1,z} | \(S_{1,z}\) | |
spin_2x | S_{2,x} | \(S_{2,x}\) | |
spin_2y | S_{2,y} | \(S_{2,y}\) | |
spin_2z | S_{2,z} | \(S_{2,z}\) | |
comoving_distance | d_{\rm C} | {\rm Mpc} | \(d_{\rm C} \ [{\rm Mpc}]\) |
symmetric_mass_ratio | \eta | \(\eta\) | |
lambda_1 | \Lambda_1 | \(\Lambda_1\) | |
lambda_2 | \Lambda_2 | \(\Lambda_2\) | |
lambda_tilde | \tilde{\Lambda} | \(\tilde{\Lambda}\) | |
delta_lambda_tilde | \delta \tilde{\Lambda} | \(\delta \tilde{\Lambda}\) | |
H1_time | t_H | {\rm s} | \(t_H \ [{\rm s}]\) |
time_jitter | \delta t | {\rm s} | \(\delta t \ [{\rm s}]\) |
recalib_H1_amplitude_0 | A^{H1}_0 | \(A^{H1}_0\) | |
recalib_H1_amplitude_1 | A^{H1}_1 | \(A^{H1}_1\) | |
recalib_H1_amplitude_2 | A^{H1}_2 | \(A^{H1}_2\) | |
recalib_H1_amplitude_3 | A^{H1}_3 | \(A^{H1}_3\) | |
recalib_H1_amplitude_4 | A^{H1}_4 | \(A^{H1}_4\) | |
recalib_H1_amplitude_5 | A^{H1}_5 | \(A^{H1}_5\) | |
recalib_H1_amplitude_6 | A^{H1}_6 | \(A^{H1}_6\) | |
recalib_H1_amplitude_7 | A^{H1}_7 | \(A^{H1}_7\) | |
recalib_H1_amplitude_8 | A^{H1}_8 | \(A^{H1}_8\) | |
recalib_H1_amplitude_9 | A^{H1}_9 | \(A^{H1}_9\) | |
recalib_H1_phase_0 | \phi^{H1}_0 | \(\phi^{H1}_0\) | |
recalib_H1_phase_1 | \phi^{H1}_1 | \(\phi^{H1}_1\) | |
recalib_H1_phase_2 | \phi^{H1}_2 | \(\phi^{H1}_2\) | |
recalib_H1_phase_3 | \phi^{H1}_3 | \(\phi^{H1}_3\) | |
recalib_H1_phase_4 | \phi^{H1}_4 | \(\phi^{H1}_4\) | |
recalib_H1_phase_5 | \phi^{H1}_5 | \(\phi^{H1}_5\) | |
recalib_H1_phase_6 | \phi^{H1}_6 | \(\phi^{H1}_6\) | |
recalib_H1_phase_7 | \phi^{H1}_7 | \(\phi^{H1}_7\) | |
recalib_H1_phase_8 | \phi^{H1}_8 | \(\phi^{H1}_8\) | |
recalib_H1_phase_9 | \phi^{H1}_9 | \(\phi^{H1}_9\) | |
recalib_H1_frequency_0 | f^{H1}_0 | {\rm Hz} | \(f^{H1}_0 \ [{\rm Hz}]\) |
recalib_H1_frequency_1 | f^{H1}_1 | {\rm Hz} | \(f^{H1}_1 \ [{\rm Hz}]\) |
recalib_H1_frequency_2 | f^{H1}_2 | {\rm Hz} | \(f^{H1}_2 \ [{\rm Hz}]\) |
recalib_H1_frequency_3 | f^{H1}_3 | {\rm Hz} | \(f^{H1}_3 \ [{\rm Hz}]\) |
recalib_H1_frequency_4 | f^{H1}_4 | {\rm Hz} | \(f^{H1}_4 \ [{\rm Hz}]\) |
recalib_H1_frequency_5 | f^{H1}_5 | {\rm Hz} | \(f^{H1}_5 \ [{\rm Hz}]\) |
recalib_H1_frequency_6 | f^{H1}_6 | {\rm Hz} | \(f^{H1}_6 \ [{\rm Hz}]\) |
recalib_H1_frequency_7 | f^{H1}_7 | {\rm Hz} | \(f^{H1}_7 \ [{\rm Hz}]\) |
recalib_H1_frequency_8 | f^{H1}_8 | {\rm Hz} | \(f^{H1}_8 \ [{\rm Hz}]\) |
recalib_H1_frequency_9 | f^{H1}_9 | {\rm Hz} | \(f^{H1}_9 \ [{\rm Hz}]\) |
recalib_L1_amplitude_0 | A^{L1}_0 | \(A^{L1}_0\) | |
recalib_L1_amplitude_1 | A^{L1}_1 | \(A^{L1}_1\) | |
recalib_L1_amplitude_2 | A^{L1}_2 | \(A^{L1}_2\) | |
recalib_L1_amplitude_3 | A^{L1}_3 | \(A^{L1}_3\) | |
recalib_L1_amplitude_4 | A^{L1}_4 | \(A^{L1}_4\) | |
recalib_L1_amplitude_5 | A^{L1}_5 | \(A^{L1}_5\) | |
recalib_L1_amplitude_6 | A^{L1}_6 | \(A^{L1}_6\) | |
recalib_L1_amplitude_7 | A^{L1}_7 | \(A^{L1}_7\) | |
recalib_L1_amplitude_8 | A^{L1}_8 | \(A^{L1}_8\) | |
recalib_L1_amplitude_9 | A^{L1}_9 | \(A^{L1}_9\) | |
recalib_L1_phase_0 | \phi^{L1}_0 | \(\phi^{L1}_0\) | |
recalib_L1_phase_1 | \phi^{L1}_1 | \(\phi^{L1}_1\) | |
recalib_L1_phase_2 | \phi^{L1}_2 | \(\phi^{L1}_2\) | |
recalib_L1_phase_3 | \phi^{L1}_3 | \(\phi^{L1}_3\) | |
recalib_L1_phase_4 | \phi^{L1}_4 | \(\phi^{L1}_4\) | |
recalib_L1_phase_5 | \phi^{L1}_5 | \(\phi^{L1}_5\) | |
recalib_L1_phase_6 | \phi^{L1}_6 | \(\phi^{L1}_6\) | |
recalib_L1_phase_7 | \phi^{L1}_7 | \(\phi^{L1}_7\) | |
recalib_L1_phase_8 | \phi^{L1}_8 | \(\phi^{L1}_8\) | |
recalib_L1_phase_9 | \phi^{L1}_9 | \(\phi^{L1}_9\) | |
recalib_L1_frequency_0 | f^{L1}_0 | {\rm Hz} | \(f^{L1}_0 \ [{\rm Hz}]\) |
recalib_L1_frequency_1 | f^{L1}_1 | {\rm Hz} | \(f^{L1}_1 \ [{\rm Hz}]\) |
recalib_L1_frequency_2 | f^{L1}_2 | {\rm Hz} | \(f^{L1}_2 \ [{\rm Hz}]\) |
recalib_L1_frequency_3 | f^{L1}_3 | {\rm Hz} | \(f^{L1}_3 \ [{\rm Hz}]\) |
recalib_L1_frequency_4 | f^{L1}_4 | {\rm Hz} | \(f^{L1}_4 \ [{\rm Hz}]\) |
recalib_L1_frequency_5 | f^{L1}_5 | {\rm Hz} | \(f^{L1}_5 \ [{\rm Hz}]\) |
recalib_L1_frequency_6 | f^{L1}_6 | {\rm Hz} | \(f^{L1}_6 \ [{\rm Hz}]\) |
recalib_L1_frequency_7 | f^{L1}_7 | {\rm Hz} | \(f^{L1}_7 \ [{\rm Hz}]\) |
recalib_L1_frequency_8 | f^{L1}_8 | {\rm Hz} | \(f^{L1}_8 \ [{\rm Hz}]\) |
recalib_L1_frequency_9 | f^{L1}_9 | {\rm Hz} | \(f^{L1}_9 \ [{\rm Hz}]\) |