Ultraviolet Flux Decrease Under a Grand Minimum from IUE Short Wavelength Observation of Solar Analogs

Abstract

We have identified a sample of 33 Sun-like stars observed by the International Ultraviolet Explorer (IUE) with the short wavelength (SW) spectrographs that have ground-based detections of chromospheric Ca\,II H+K activity. Our objective is to determine if these observations can provide an estimate of the decrease in ultraviolet (UV) surface flux associated with a transition from a normal stellar cycle to a grand minimum state. The activity detections, corrected to solar metallicity, span the range -5.16 < log R'HK < -4.26, and eight stars have log R'HK < -5.00. The IUE-observed flux spectra are integrated over the wavelength range 1250-1910 , transformed to surface fluxes, and then normalized to solar B - V. These normalized surface fluxes show a strong linear relationship with activity R'HK (R2 = 0.857 after three outliers are omitted). From this linear regression we estimate a range in UV flux of 9.3\% over solar cycle 22, and a reduction of 6.9\% below solar cycle minimum under a grand minimum. The 95\% confidence interval in this grand minimum estimate is 5.5\%-8.4\%. An alternative estimate is provided by the IUE observations of τ\,Cet (HD\,10700), a star having strong evidence of being in a grand-minimum state, and this star's normalized surface flux is 23.05.7\% lower than solar cycle minimum.