Hello,
I calculated p-mode frequencies for my models and they looked fine to me until when I calculated frequency ratios. I found a more like a zigzag feature between 3000 and 3500 microHz. I have attached the model, my gyre_template file and the plot for the ratios r010.
Secondly, I also played around varying the frequency range in gyre.in, I hoped Gyre would fail when one sets maximum frequency higher than the acoustic cut-off frequency of the model, but this is not the case, Gyre still calculates these frequencies. Could you help me understand why this is so?
Thank you.
Cheers,
Benard
frequency range and Gyre output
frequency range and Gyre output
- Attachments
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- ratio_model1.png (28.65 KiB) Viewed 3474 times
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- mixing_length_alpha_1.3_initial_z_0.013_initial_mass_0.95_LOGS_profile16.data.FGONG
- (607.79 KiB) Downloaded 351 times
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- gyre_template.in
- (2.31 KiB) Downloaded 316 times
- rhtownsend
- Site Admin
- Posts: 398
- Joined: Sun Mar 31, 2013 4:22 pm
Re: frequency range and Gyre output
Hi Benard --
Regarding the wiggle in r010 -- can you see anything going on with the dipole mode(s) in the data? Have you tried plotting an echelle diagram to see if there is an avoided crossing?
Regarding the cutoff frequency issue -- GYRE currently prints out a warning that some frequencies in the scan grid are above the cutoff. When we're above the cutoff, the outer mechanical boundary condition is formally complex. When performing adiabatic calculations, GYRE simply discards the imaginary parts of the boundary condition.
As a user, what sort of behavior would you prefer to see? I could, for instance, truncate the frequency scan so that it doesn't go above the cutoff. Or, I could abort with an error.
cheers,
Rich
Regarding the wiggle in r010 -- can you see anything going on with the dipole mode(s) in the data? Have you tried plotting an echelle diagram to see if there is an avoided crossing?
Regarding the cutoff frequency issue -- GYRE currently prints out a warning that some frequencies in the scan grid are above the cutoff. When we're above the cutoff, the outer mechanical boundary condition is formally complex. When performing adiabatic calculations, GYRE simply discards the imaginary parts of the boundary condition.
As a user, what sort of behavior would you prefer to see? I could, for instance, truncate the frequency scan so that it doesn't go above the cutoff. Or, I could abort with an error.
cheers,
Rich
Re: frequency range and Gyre output
Hi Rich,
Many thanks for your response.
I have calculated frequencies keeping only those below the cut-off and the plot for the r010 is fine now. The hump i was seeing comes for frequencies above the cut-off frequency which i shouldn't be keeping.
Cheers,
Benard
Many thanks for your response.
I have calculated frequencies keeping only those below the cut-off and the plot for the r010 is fine now. The hump i was seeing comes for frequencies above the cut-off frequency which i shouldn't be keeping.
Cheers,
Benard