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Leuven and Nijmegen Universities p. 1 Mode identification from time series of high-resolution high signal-to-noise spectroscopy 1. Aerts et al. (1992),

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Presentation on theme: "Leuven and Nijmegen Universities p. 1 Mode identification from time series of high-resolution high signal-to-noise spectroscopy 1. Aerts et al. (1992),"— Presentation transcript:

1 Leuven and Nijmegen Universities p. 1 Mode identification from time series of high-resolution high signal-to-noise spectroscopy 1. Aerts et al. (1992), Briquet & Aerts (2003) 2. Telting & Schrijvers (1997) 3. Zima (2006, 2008): FAMIAS

2 Leuven and Nijmegen Universities p. 2 Example: 12 Lacertae (Mathias et al. 2004)

3 Leuven and Nijmegen Universities p. 3 Example: Rho Puppis (Mathias et al. 1997)

4 Leuven and Nijmegen Universities p. 4 Mode identification from LPVs Mode identification from LPVs Animations from John Telting and Coen Schrijvers

5 Leuven and Nijmegen Universities p. 5 Analysis of line-profile variations Analysis of line-profile variations Goal: derive empirical mode identification as input for asteroseismic modelling Use several diagnostics: moments of the line; amplitude and phase across spectral line Calibrate methods from extensive simulations + theory of non-radial oscillations

6 Leuven and Nijmegen Universities p. 6 Requirements for mode identification Requirements for mode identification Use non-blended lines or averages thereof or cross-correlation profiles Cover entire beat cycle of all modes S/N > 300 R > 50 000 # > several hundred (say 100 per mode)

7 Leuven and Nijmegen Universities p. 7 Different line broadening mechanisms 1,2,3 follow from atmosphere models, but too uncertain in practice.... we take them together in intrinsic profile and fit

8 Leuven and Nijmegen Universities p. 8 Theoretical computation of LPVs NOT restricted to Gaussian, but atmosphere model needs to be adapted to the data itself...

9 Leuven and Nijmegen Universities p. 9 Theoretical computation of LPVs Divide stellar surface into large number of segments, typically > 5000 Compute for each segment: pulsation and rotation velocity, intensity Project onto the line-of-sight Add up all contributions

10 Leuven and Nijmegen Universities p. 10 Theoretical computation of LPVs

11 Leuven and Nijmegen Universities p. 11 Theoretical computation of LPVs

12 Leuven and Nijmegen Universities p. 12 Theoretical computation of LPVs

13 Leuven and Nijmegen Universities p. 13 The moment method The moment method

14 Leuven and Nijmegen Universities p. 14 Moments of Delta Sct star Rho Puppis first moment: sinusoidal (ideal for frequency determination) second moment: double sine is dominant over sine (m=0) third moment: sine is dominant, but contributions from 2f and 3f Note: odd moments have average = 0 km/s (km/s)² (km/s)³

15 Leuven and Nijmegen Universities p. 15 Theoretical moment expressions Theoretical moment expressions Aerts et al. (1992), Aerts (1996)

16 Leuven and Nijmegen Universities p. 16 Partial cancellation Partial cancellation p-mode with K=0.1 g-mode with K=10. Limb-darkening effect Geometric effect Partial cancellation is different in spectroscopy than in photometry!

17 Leuven and Nijmegen Universities p. 17 Computation of observed moments Computation of observed moments Measurements in time series: (t_j, x_i, I_i) j=1,...,M; i=1,...,N with N # pixels in line profile Correction of Earth motion around the Sun is taken into account, i.e. we work barycentrically

18 Leuven and Nijmegen Universities p. 18 Computation of observed moments Computation of observed moments

19 Leuven and Nijmegen Universities p. 19 Definition of a discriminant

20 Leuven and Nijmegen Universities p. 20 Gain in data quality from 1980 - 1995 Smith et al. (1980) versus Mathias et al. (1997)

21 Leuven and Nijmegen Universities p. 21 Moment method: Briquet & Aerts (2003) Rho Puppis has: radial mode amplitude ~ 5 km/s vsini ~ 15 km/s Applicability is limited to oscillations with amplitude > ½ EW

22 Leuven and Nijmegen Universities p. 22 Outcome of a discriminant for Rho Pup Don't forget to check the IACCs...

23 Leuven and Nijmegen Universities p. 23 Multiperiodic moment method Use moment method for identification in slow rotators and for stars with dominant mode

24 Leuven and Nijmegen Universities p. 24 Phase changes across the profile Phase changes across the profile Idea: map the stellar velocity field into the line profiles Pioneering study: bumps that pass through line are measure of m Application to fast rotators, as bumps need to be resolved That is problem.... NRP theory invalid... + restrictions to l=m, i=90 °

25 Leuven and Nijmegen Universities p. 25 Simulations of LPVs Telting & Schrijvers (1997) performed extensive simulation study for modes up to l=15

26 Leuven and Nijmegen Universities p. 26 Phase change across the line profile For concrete applications: do star-by-star analysis !

27 Leuven and Nijmegen Universities p. 27 Application to Beta Cephei Beta Cephei has: dominant radial mode with amplitude ~ 20 km/s second low-amplitude mode: discrimination between l=1,2 is difficult but m=+1 Veq ~ 25 to 30 km/s (Telting et al. 1997)

28 Leuven and Nijmegen Universities p. 28 Pixel-by-pixel method: Zima (2006) Estimate average line profile and work with residuals Consider deviation parameter in Chi^2 sense and couple this to significance criterion

29 Leuven and Nijmegen Universities p. 29 Application to FG Vir: Zima et al. (2006) FG Vir has: multiple modes (79!) amplitudes ~ 2 km/s Veq ~65 km/s 12 NRP could be identified from spectra: 6 have m  0 6 have m  0 In agreement with photometric mode identificaiton

30 Leuven and Nijmegen Universities p. 30 Conclusions (1) Conclusions (1) Sophisticated methods for interpretations of line-profile variations have been developed Frequency search can be done on moments or on pixel-by-pixel variations across the profile(s) Moment method is optimal for slow rotators; pixel-by-pixel method is better for faster rotators (BUT: not TOO fast to be compliant with theory) Moment method is not very sensitive to EW variations; pixel- by-pixel method is Moment method is not very sensitive to inaccurate average profile; pixel-by-pixel method is

31 Leuven and Nijmegen Universities p. 31 Conclusions (2) Conclusions (2) Preferrably use both methods and compare results Methods discussed here can also be applied to An average of several spectral lines, provided they are formed in same line-forming region A Cross-Correlation function (CCF) derived from a full spectrum A least-squared deconvolution (LSD) derived from a full spectrum => be careful for effects of line blending !! (make sure it does not induce solutions close to an IACC...)

32 Leuven and Nijmegen Universities p. 32 Conclusions (3) Conclusions (3) If both a time series in photometry and spectroscopy are available: search for frequencies in both of them use photometric mode identification for l and fix this in spectroscopic mode identification; compare results when l is not fixed Unambiguous identification of (l,m) helps a great deal to recognise merged multiplets... Even correct identification of (l,m) for ONE mode is significant step forward for seismic modelling

33 Leuven and Nijmegen Universities p. 33 The package FAMIAS will help you to apply the moment method and the pixel-by-pixel method

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