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# Program information file
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PROGRAM_ID 2022B059
PROGRAM_TITLE LAERTES: L-Band Accretion Estimator Reconnaissance of TTS Emission Spectra
PROGRAM_INV1 Will Fischer
PROGRAM_INV2 Tracy Beck
PROGRAM_INV3 James Muzerolle
PROGRAM_INV4
PROGRAM_INV5
PROGRAM_SCICAT stellar
PROGRAM_ABSTRACT_BEG
The disk accretion rates of accreting young stars are important inputs for understanding how stars and planets get their masses. These are best measured from the UV/optical continuum, but these wavelengths are not accessible for the most embedded T Tauri stars [TTS] or in their precursors, the protostars. Instead, IR emission lines can be used as indirect tracers. At 4.05 microns, Brackett alpha is a strong emission line in accreting young stars and will be readily accessible to JWST spectroscopy of protostars too embedded for K band Brackett gamma observations. In 2022B, the ULLYSES public director's discretionary program with Hubble will measure the UV/optical continuum in three bright T Tauri stars, 12 times per star over three consecutive rotation periods to track their short-term variability. These stars were observed with the same cadence one year earlier, also allowing a look at longer-term changes. We propose 1.7-4.2 micron SpeX LXD_short spectroscopy of these TTS with the 0.8 arcsec slit, three times per star to coincide with the Hubble campaigns. This will allow [1] calibration of the relationship between Brackett alpha luminosity and that of the UV/optical continuum and [2] an analysis of how tightly mid-IR variability is tied to UV variability. It will also provide an important archival dataset for the community by extending the wavelength coverage of the Hubble observations to the thermal IR.
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