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Subsections


6.6 Spurious Narrow Spectral Features

The RSRFs used in OLP 7.0 are based on the pre-launch ILT tests with broad shape corrections derived from in-flight observations of standard stellar sources. The only small scale corrections applied were for four narrow features in the lab RSRF. From careful analysis of data from many sources processed with the lab RSRFs, four narrow spectral features were discovered that were due to the system response. These features were at: Band 2C 9.35, 10.05 & 11.05 microns

Band 3A 12.3 microns

While the OLP 7.0 RSRF files have been corrected to remove these features, a residual of the emission feature at 11.05 microns can still be seen in very high S/N data.

The first report on the analysis of the band 2C features is printed below for information.


6.6.1 Spurious Spectral Features seen in Band 2C

6.6.1.1 Introduction

Spurious features may be present in band 2C (7 to 12 microns) that should not be mistaken for actual spectral features from the object of interest. This warning is based on a small sample of observations, and its conclusions should be treated as preliminary at this stage.

Band 2C features are a collection of ubiquitous spectral `lines' in emission and absorption seen between 7 and 12 microns (SWS Band 2C). An example of these features is shown in Figure 6.5, the normalized flux of an AOT1 speed 1. Also plotted is the Relative Spectral Response Function (RSRF) of Band2c.

The features occur at:

9.35 microns in absorption with a FWHM: 0.3 microns

10.05 microns in emission with a FWHM: 0.1 microns

11.05 microns in emission with a FWHM: 0.1 microns

Figure 6.5: SWS spectrum showing spurious features
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6.6.1.2 Data

Forty-three Band 2C spectra were collected from 9 observers in order to find trends in the strength of the features. The spectra are from both carbon and oxygen rich objects which are, in turn, stellar and nebular in origin. Since a rather broad wavelength range is required, only data from AOT SWS01 observations was used. This does not preclude the features being present in the data from other AOTs.

Table 6.1 shows a summary of the 43 sources in the sample with at least one feature. The peak wavelengths, FWHM and Percent of continuum levels (``% Cont'', negative meaning absorption, positive emission) are median values in the sample. Also listed are the minimum and maximum values for each parameter that were seen in the dataset. Some of the spread is due to noisy data and the difficulty of measuring the continuum and width of a line.


Table 6.1: Sources with features
Feature # Peak (Min, Max) Median (Min, Max) % Cont (Min, Max)
    Waveln.     FWHM          
9.35 36 9.26 ( 9.2 , 9.4 ) 0.295 (0.029, 0.482) -7 (-14, 1)
10.05 30 10.07 ( 9.96, 10.10) 0.094 (0.017, 0.280) 3 ( -5, 11)
11.05 37 11.05 (11.01, 11.11) 0.090 (0.050, 0.180) 6 ( 4, 15)

The summary for the absence of features is shown in Table 6.2. We have listed the number of sources that do NOT show a feature and the continuum level where we expect the feature to be. In general the absence of a feature correlates with the continuum strength. Of the sources that do not show one of of the features, at least 2/3 of these have continua below 100 Jy. Again, this may be an indication of the difficulty in measuring the features.


Table 6.2: Sources without features
Feature Number Median Cont (Min, Max)
    (Jy)    
9.35 7 63 (20, 4200)
10.05 13 46 (14, 430)
11.05 6 18 (12, 115)

The remaining sources that have high continua but do not show a feature remain a puzzle. Of the high continuum sources (>100 Jy), 2 do not show the 9.35 micron feature, 3 do not show the 10.05 and 1 does not show the 11.05 feature.

Since we did not specifically ask for sources that did not show any features, we cannot draw any conclusions about these sources.

6.6.1.3 Results

From the 43 sources we find the following:

6.6.1.4 Discussion

There are a number of arguments why these features are not astronomical:

However, the absence of features in some spectra clouds the problem greatly. If these features are introduced in the RSRF, then we must explain what is happening in the sources without the features. Again there are a number of possibilities:

6.6.1.5 Conclusions

From the small number of observations studied the preliminary conclusions on these spectral features are that they appear in all types of objects and are a constant fraction of the source continuum, roughly 5%. At this time, the best explanation is that the features are introduced by the RSRF and are not astronomical in origin.

While only AOT 1's have been checked, these features have been seen in the data from other grating AOT's.

These conclusions should be viewed as preliminary until a more complete investigation is carried out.


next up previous contents index
Next: 6.7 Overview of the Up: 6. The RSRF and Previous: 6.5 What can go
SWS Instrument & Data Manual, Issue 1.0, SAI/98-095/Dc