PyLMT: A transient detection pipeline for the 4-m International Liquid Mirror Telescope

TL;DR

PyLMT is a novel, CNN-enhanced transient detection pipeline for the ILMT, enabling efficient identification of variable sources, asteroids, and transients with high accuracy and real-time capabilities.

Contribution

The paper introduces PyLMT, a new transient detection pipeline utilizing image subtraction and CNN classifiers, optimized for the ILMT's continuous survey data.

Findings

Achieved 94-98% accuracy in real/bogus classification

Detected 12 extragalactic transients, including 2 new discoveries

Median processing time of 29 minutes per image

Abstract

The International Liquid Mirror Telescope (ILMT) is a 4-m aperture, zenith-pointing telescope with a field-of-view of 22', situated in the foothills of the Himalayas. The telescope operates in continuous survey mode, making it a useful instrument for time-domain astronomy, particularly for detecting transients, variable stars, active galactic nuclei variability, and asteroids. This paper presents the PyLMT transient detection pipeline to detect such transient/varying sources in the ILMT images. The pipeline utilises the image subtraction technique to compare a pair of images from the same field, identifying such sources in subtracted images with the help of convolutional neural networks (CNN) based real/bogus classifiers. The test accuracies determined for the real/bogus classifiers ranged from 94% to 98%. The resulting precision of the pipeline calculated over candidate alerts in the ILMT frames is 0.91. It also houses a CNN-aided transient candidate classifier that classifies the transient/variable candidates based on host morphology. The test accuracy of the candidate classifier is 98.6%. It has the provision to identify catalogued asteroids and other solar system objects using public databases. The median execution time of the pipeline is approximately 29 minutes per image of 17 minutes exposure. Relevant CNNs have been trained on data acquired with the ILMT during the cycle of October-November 2022. Subsequent tests on those images have confirmed the detection of numerous catalogued asteroids, variable stars, and other uncatalogued sources. The pipeline has been operational and has detected 12 extragalactic transients, including 2 new discoveries in the November 2023-May 2024 observation cycle.