Variable Outer Disk Shadowing Around the Dipper Star RX J1604.3-2130

TL;DR

This study uses multi-epoch VLT/SPHERE imaging to reveal variable shadows in the protoplanetary disk of RX J1604.3-2130, indicating dynamic inner disk structures potentially caused by planets or magnetic activity.

Contribution

First multi-epoch high-resolution imaging of RX J1604.3-2130's disk revealing variable shadow dips and disk misalignment, suggesting dynamic inner disk processes and possible planet influence.

Findings

Detected two variable shadow dips in the disk.

Observed significant variability in dip morphology and position.

Found a large misalignment between inner and outer disks.

Abstract

Low brightness dips have been recently observed in images of protoplanetary disks, and they are believed to be shadows by the inner disk. We present VLT/SPHERE polarimetric differential imaging of the transition disk around the dipper star RX J1604.3-2130. We gathered 11 epochs that cover a large temporal baseline, to search for variability over timescales of years, months, weeks, and days. Our observations unambiguously reveal two dips along an almost face-on narrow ring (with a width of $\sim$20 au), and the location of the peak of this ring is at $\sim$65 au. The ring lies inside the ring-like structure observed with ALMA, which peaks at $\sim$83 au. This segregation can result from particle trapping in pressure bumps, potentially due to planet(s). We find that the dips are variable, both in morphology and in position. The eastern dip, at a position angle (PA) of $\sim$83.7$\pm$13.7$^\circ$, has an amplitude that varies between 40% to 90%, and its angular width varies from 10$^{\circ}$ to 34$^{\circ}$. The western dip, at a PA of $\sim$265.90$\pm$13.0$^\circ$, is more variable, with amplitude and width variations of 31% to 95% and 12$^{\circ}$ to 53$^{\circ}$, respectively. The separation between the dips is 178.3$^{\circ}\pm$14.5$^{\circ}$, corresponding to a large misalignment between the inner and outer disk, supporting the classification of J1604 as an aperiodic dipper. The variability indicates that the innermost regions are highly dynamic, possibly due to a massive companion or to a complex magnetic field topology.