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e + 1 = 0
0e−x² dx =√π2
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\documentclass{article}
\usepackage{amsmath}
\begin{document}
\begin{align*}
  e^{i\pi} + 1 &= 0 \\[1ex]
  \int_{0}^{\infty} e^{-x^2} dx &= \frac{\sqrt{\pi}}{2}
\end{align*}
\end{document}

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Exoplanet Thesis
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Synergistic Application of Machine Learning and Computer Vision for the Detection of Exoplanets and Stars

Shihab Shahriar Antor   Ashraful Kabir Alif

Department of Computer Science, BRAC University

Abstract— We present a framework that detects faint exoplanets in JWST/MIRI coronagraph imagery using contrastive and few-shot learning, separating planetary signals from bright host stars under low signal-to-noise. On held-out fields it outperforms CNN and GNN baselines while using far fewer labels.

Keywords: exoplanets, direct imaging, contrastive learning, few-shot learning, JWST

1.  Introduction

b

Figure 1: JWST/MIRI direct imaging of a faint exoplanet (b) beside its host star.

Direct imaging of exoplanets is fundamentally limited by the overwhelming glare of the host star. Modern coronagraphs on JWST/MIRI suppress this stellar light, yet faint planetary signals remain buried in structured noise. As shown in Figure 1, the planet sits within the diffraction pattern of its star, making detection a needle-in-a-haystack problem. We cast this as a representation-learning task and show that contrastive objectives recover signals that pixel-wise classifiers miss.

2.  Method

We learn a discriminative embedding with a contrastive objective, pulling together augmented views of one source and pushing apart star and planet candidates:

𝓛= −loges⁺Σ esi(1)

A few-shot head then adapts to new instruments from a handful of labelled detections, which is critical given the scarcity of confirmed direct-imaging targets.

3.  Results

On held-out fields the model recovers 92% of injected planets at a false-positive rate below 0.1 per frame, outperforming CNN and GNN baselines by 14 and 9 points of recall respectively.

Preprint — drafted collaboratively on LetXJune 2026
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Direct Imaging of Exoplanets

Coronagraphs on JWST/MIRI suppress the host star’s glare, yet faint planetary signals stay buried in structured stellar noise.

We recover them with contrastive and few-shot learning, separating planet candidates from the star even at very low signal-to-noise.

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