Where is the base of the Transition Region? Evidence from TRACE, SDO, IRIS and ALMA observations
Abstract
Classic solar models put the Chromosphere-Corona Transition Region (CCTR at 2Mm above the τ5000 = 1 level, whereas rMHD models place it in a wider range of heights. Observational verification is scarce. We review and discuss recent results from various instruments and spectral domains. In SDO and TRACE images spicules appear in emission in the 1600, 1700 and 304 A bands and in absorption in the EUV bands; the latter is due to photo-ionization of H and He I. At the shortest available AIA wavelength and taking into account that the photospheric limb is 0.34Mm above the τ5000=1 level, we found that CCTR emission starts at 3.7Mm; extrapolating to λ=0, where there is no chromospheric absorption, we deduced a height of 3.0 0.5Mm, above the value of 2.14Mm of the Avrett & Loeser model. Another indicator of the extent of the chromosphere is the height of the network structures. Height differences produce a limbward shift of features with respect to their counterparts in magnetograms. Using this approach, we measured heights of 0.140.04Mm (at 1700 A), 0.310.09Mm (at 1600 A) and 3.31 0.18Mm (at 304 A) for the center of the solar disk. A previously reported possible solar cycle variation is not confirmed. A third indicator is the position of the limb in the UV, where IRIS observations of the Mg II triplet lines show that they extend up to 2.1Mm above the 2832 A limb, while AIA/SDO images give a limb height of 1.4 0.2Mm (1600 A) and 5.7 0.2Mm (304 A). Finally, ALMA mm-λ full-disk images provide useful diagnostics, though not very accurate; values of 2.40.7Mm at 1.26mm and 4.22.5Mm at 3mm were obtained. Putting everything together, we conclude that the average chromosphere extends higher than homogeneous models predict, but within the range of rMHD models.
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