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Disussion of dispersion etc. (especially between wavelength bands) and fringe-tracking - Jeff Meisner A note on units: Column densities of air or water.

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Presentation on theme: "Disussion of dispersion etc. (especially between wavelength bands) and fringe-tracking - Jeff Meisner A note on units: Column densities of air or water."— Presentation transcript:

1 Disussion of dispersion etc. (especially between wavelength bands) and fringe-tracking - Jeff Meisner A note on units: Column densities of air or water vapor are in: moles/m 2 Column density = volume density (moles/m 3 ) * Distance (meters) At Paranal, air is about 31.5 moles/m 3 (calibratable to about 10 -3 if temperature is known to within.3 o Thus 100 meters of air is ~= 3150. moles/m 2 1 airmass ~= 350,000 moles/m 2 H 2 O is typically.05 –.3 moles/m 3 depending on humidity: At 15 o and 20% RH, density =.14 moles/m 3, thus 100 meters of such air is 14. moles/m 2, =.25 mm PWV

2 Achromatic differential delay Phase delay same for all optical frequencies Phase at each frequency:  2  (where  is phase delay)

3 Non-achromatic delay from water vapor exhibiting First Order Dispersion Phase delay at each optical frequency proportional to refractivity at that wavelength

4 Viewed at phase of center frequency, envelope (“group delay”) shifts w/r/t phase Non-achromatic delay from water vapor exhibiting First Order Dispersion

5 Tracking the “group delay” we see the fringe phase go from 0 to 2  and repeat! Non-achromatic delay from water vapor exhibiting First Order Dispersion

6 MIDI observation, tracking atmospheric (?) OPD and water vapor

7 Matching of dispersion variations in N-band vs. optical frequency with theoretical curve (from Richard Mathar) (2 free parameters fitted: offset & scale) SNR

8 Refractive index of water vapor (Computed by Richard Mathar)

9

10 Dispersive effect between (and within) bands due to 0 – 600 mole/m^2 of additional dry air. (= 20 meter delay-line offset) Note that dispersion from dry air increases rapidly at short wavelengths (Tracking at the group-delay in K band)

11 …. Delay line offset, meters -8 -6 -4 -2 0 2 Fitting first order dispersion due to dry air vs. differential delay-line air column (from VINCI) R esiduals from fit place upper limit on atmospheric water-vapor at low temporal frequencies (<.01 Hz since ~100 second observations) of <.3 mole/m^2  D   

12 Now, Water Vapor dispersion (Gets worse at longer wavelengths) Recall that atmospheric fluctuations are around.5 – 1 moles/m 2 rms

13 Phase referencing at K band, phase error at other wavelengths due to 1 mole/m^2 of differential water vapor: Is worst at long N band (22 THz)

14 Water Vapor dispersion, with phase-tracking at K band 0 – 5 moles/m^2 (typical p-p value due to atmosphere)

15

16 The end

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