The orbital and superhump periods of the dwarf nova HS 0417+7445 in Camelopardalis

TL;DR

This study analyzes the 2005-2010 outburst history and detailed photometry of the dwarf nova HS 0417+7445, revealing its orbital and superhump periods, and providing insights into the superoutburst mechanisms.

Contribution

The paper provides the first precise measurement of the orbital period and superhump period during a superoutburst of HS 0417+7445, and discusses the superoutburst behavior in relation to the thermal-tidal instability model.

Findings

Orbital period measured as 0.07531 days.

Superhump period observed at 0.07824 days.

Large fractional period excess of 0.137 during early superhumps.

Abstract

We present the 2005-2010 outburst history of the SUUMa-type dwarf HS 0417+7445,along with a detailed analysis of extensive time-series photometry obtained in March 2008 during the second recorded superoutburst of the system. The mean outburst interval is 197 \pm 59 d, with a median of 193 d. The March 2008 superoutburst was preceeded by a precursor outburst, had an amplitude of 4.2 magnitudes, and the whole event lasted about 16 days. No superhumps were detected during the decline from the precursor outburst, and our data suggests instead that orbital humps were present during that phase. Early superhumps detected during the rise to the superoutburst maximum exhibited an unusually large fractional period excess of epsilon = 0.137 (Psh = 0.0856(88) d). Following the maximum, a linear decline in brightness followed, lasting at least 6 days. During this decline, a stable superhump period of Psh = 0.07824(2) d was measured. Superimposed on the superhumps were orbital humps, which allowed us to accurately measure the orbital period of HS 0417+7445, Porb = 0.07531(8) d, which was previously only poorly estimated. The fractional superhump period excess during the main phase of the outburst was epsilon = 0.037, which is typical for SU UMa dwarf novae with similar orbital period. Our observations are consistent with the predictions of the thermal-tidal instability model for the onset of superoutbursts,but a larger number of superoutbursts with extensive time-series photometry during the early phases of the outburst would be needed to reach a definite conclusion on the cause of superoutbursts.