&constants
/

&model
  model_type = 'EVOL'  ! Obtain stellar structure from an evolutionary model
  file = '<profile filename>.data.GYRE'
  file_format = 'MESA' ! File format of the evolutionary model
/

&mode
  l = 0 ! Harmonic degree
  tag= 'radial'
/


&mode
  l = 1
  tag = 'non-radial'
/

&mode
  l = 2
  tag = 'non-radial'
/

&osc
  outer_bound = 'JCD'
  alpha_grv = 0
  reduce_order = .false.
/

&rot
/

&num
  diff_scheme = 'COLLOC_GL4' ! 4th-order collocation scheme for difference equations
/

&scan
  tag_list = 'radial'
  grid_type = 'LINEAR' ! Scan grid uniform in frequency
  freq_min = 150        ! Minimum frequency to scan from
  freq_max = 250        ! Maximum frequency to scan to
  n_freq = 200          ! Number of frequency points in scan
  freq_units = 'UHZ'
/

&scan
  tag_list = 'non-radial'
  grid_type = 'INVERSE' ! Scan grid uniform in inverse frequency
  freq_min = 150        ! Minimum frequency to scan from
  freq_max = 250       ! Maximum frequency to scan to
  n_freq = 2000          ! Number of frequency points in scan
  freq_units = 'UHZ'
/

&grid
  w_osc = 10 ! Oscillatory region weight parameter
  w_exp = 2  ! Exponential region weight parameter
  w_ctr = 10 ! Central region weight parameter
/
 
&ad_output
    summary_file = '<output directory>/summary.txt'
    summary_file_format = 'TXT'
    summary_item_list = 'l,m,n_pg,n_p,n_g,freq,freq_units,E_norm,E_p,E_g,Delta_p,Delta_g'
    detail_template = '<output directory>/detail.l%l.n%n.txt'
    detail_item_list = 'l,n_pg,omega,x,xi_r,xi_h,c_1,As,V_2,Gamma_1'
    detail_file_format = 'TXT'

  freq_units = 'UHZ'
/
 
&nad_output
/