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Title: DiffLense: a conditional diffusion model for super-resolution of gravitational lensing data

Journal Article · · Machine Learning: Science and Technology
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Abstract Gravitational lensing data is frequently collected at low resolution due to instrumental limitations and observing conditions. Machine learning-based super-resolution techniques offer a method to enhance the resolution of these images, enabling more precise measurements of lensing effects and a better understanding of the matter distribution in the lensing system. This enhancement can significantly improve our knowledge of the distribution of mass within the lensing galaxy and its environment, as well as the properties of the background source being lensed. Traditional super-resolution techniques typically learn a mapping function from lower-resolution to higher-resolution samples. However, these methods are often constrained by their dependence on optimizing a fixed distance function, which can result in the loss of intricate details crucial for astrophysical analysis. In this work, we introduce DiffLense , a novel super-resolution pipeline based on a conditional diffusion model specifically designed to enhance the resolution of gravitational lensing images obtained from the Hyper Suprime-Cam Subaru Strategic Program (HSC-SSP). Our approach adopts a generative model, leveraging the detailed structural information present in Hubble space telescope (HST) counterparts. The diffusion model, trained to generate HST data, is conditioned on HSC data pre-processed with denoising techniques and thresholding to significantly reduce noise and background interference. This process leads to a more distinct and less overlapping conditional distribution during the model’s training phase. We demonstrate that DiffLense outperforms existing state-of-the-art single-image super-resolution techniques, particularly in retaining the fine details necessary for astrophysical analyses.

Sponsoring Organization:
USDOE
Grant/Contract Number:
SC0012567
OSTI ID:
2447168
Journal Information:
Machine Learning: Science and Technology, Journal Name: Machine Learning: Science and Technology Journal Issue: 3 Vol. 5; ISSN 2632-2153
Publisher:
IOP PublishingCopyright Statement
Country of Publication:
United Kingdom
Language:
English

References (45)

Fast automated analysis of strong gravitational lenses with convolutional neural networks journal August 2017
Evidence for substructure in lens galaxies? journal April 1998
Survey of Gravitationally-lensed Objects in HSC Imaging (SuGOHI): VI. Crowdsourced lens finding with Space Warps journal October 2020
HOLISMOKES: II. Identifying galaxy-scale strong gravitational lenses in Pan-STARRS using convolutional neural networks journal December 2020
HOLISMOKES: IV. Efficient mass modeling of strong lenses through deep learning journal February 2021
HOLISMOKES: VI. New galaxy-scale strong lens candidates from the HSC-SSP imaging survey journal September 2021
Image segmentation for analyzing galaxy-galaxy strong lensing systems journal January 2022
Search of strong lens systems in the Dark Energy Survey using convolutional neural networks journal December 2022
Holismokes journal May 2022
Hubble Asteroid Hunter journal November 2022
The frontier of simulation-based inference journal May 2020
Direct Detection of Cold Dark Matter Substructure journal June 2002
The Sloan Lens ACS Survey. V. The Full ACS Strong‐Lens Sample journal August 2008
Survey of Gravitationally Lensed Objects in HSC Imaging (SuGOHI) – VII. Discovery and confirmation of three strongly lensed quasars† journal January 2021
Realistic galaxy image simulation via score-based generative models journal January 2022
SHARP – IV. An apparent flux-ratio anomaly resolved by the edge-on disc in B0712+472 journal May 2017
Generative Adversarial Networks recover features in astrophysical images of galaxies beyond the deconvolution limit journal January 2017
Third data release of the Hyper Suprime-Cam Subaru Strategic Program journal February 2022
Survey of Gravitationally lensed objects in HSC Imaging (SuGOHI). VIII. New galaxy-scale lenses from the HSC SSP journal August 2022
Direct detection of dark matter substructure in strong lens images with convolutional neural networks journal January 2020
Deep learning the astrometric signature of dark matter substructure journal December 2021
Image Quality Assessment: From Error Visibility to Structural Similarity journal April 2004
Image Super-Resolution Via Iterative Refinement journal January 2022
Gravitational imaging of cold dark matter substructures: Gravitational imaging of CDM substructures journal October 2005
Bayesian strong gravitational-lens modelling on adaptive grids: objective detection of mass substructure in Galaxies journal January 2009
Statistics of mass substructure from strong gravitational lensing: quantifying the mass fraction and mass function journal December 2009
Gravitationally lensed quasars and supernovae in future wide-field optical imaging surveys: Lensed quasars and supernovae journal April 2010
Detection of a dark substructure through gravitational imaging: Detection of a dark substructure journal October 2010
OptoGPT: A foundation model for inverse design in optical multilayer thin film structures journal January 2024
Chiral detection of biomolecules based on reinforcement learning journal January 2023
Detection of Lensing Substructure Using alma Observations of the Dusty Galaxy Sdp.81 journal May 2016
Probing the Small-scale Structure in Strongly Lensed Systems via Transdimensional Inference journal February 2018
LensFlow: A Convolutional Neural Network in Search of Strong Gravitational Lenses journal March 2018
Mining for Dark Matter Substructure: Inferring Subhalo Population Properties from Strong Lenses with Machine Learning journal November 2019
Deep Learning the Morphology of Dark Matter Substructure journal April 2020
Finding Strong Gravitational Lenses in the DESI DECam Legacy Survey journal May 2020
Discovering New Strong Gravitational Lenses in the DESI Legacy Imaging Surveys journal March 2021
High-quality Strong Lens Candidates in the Final Kilo-Degree Survey Footprint journal December 2021
Mining for Strong Gravitational Lenses with Self-supervised Learning journal June 2022
From Images to Dark Matter: End-to-end Inference of Substructure from Hundreds of Strong Gravitational Lenses journal January 2023
The DES Bright Arcs Survey: Hundreds of Candidate Strongly Lensed Galaxy Systems from the Dark Energy Survey Science Verification and Year 1 Observations journal September 2017
An Extended Catalog of Galaxy–Galaxy Strong Gravitational Lenses Discovered in DES Using Convolutional Neural Networks journal July 2019
Uncertainties in Parameters Estimated with Neural Networks: Application to Strong Gravitational Lensing journal November 2017
Non-Local Means Denoising journal January 2011
Deep Learning-Based Super-Resolution and De-Noising for XMM-Newton Images text January 2022

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