Bibliographic Information: Ban, Z., Chen, J., & Yang, J. (2024). Shadows of rotating black holes in effective quantum gravity. arXiv preprint arXiv:2411.09374v1.
Research Objective: This study aims to investigate the impact of quantum gravity corrections on the shadows cast by rotating black holes. The authors focus on two new spherically symmetric black hole models developed within the framework of effective quantum gravity.
Methodology: The researchers employ the modified Newman-Janis algorithm to generate rotating black hole solutions from the static, spherically symmetric quantum-corrected black hole models. They analyze the horizons, static limit surfaces, and null geodesic equations of these rotating black holes to understand the effects of the quantum parameter (ζ) on their shadows.
Key Findings: The study reveals that the quantum parameter (ζ) primarily affects the size of the black hole shadow in non-extreme cases (lower spin parameter values). However, in near-extreme cases (higher spin parameter values), ζ significantly deforms the shadow shape, leading to the emergence of a cuspy edge.
Main Conclusions: The research concludes that the presence of quantum gravity corrections can have observable consequences on the shadows of rotating black holes. The distinct shadow features, particularly the size variations and the cuspy edge in near-extreme cases, offer potential avenues for distinguishing these quantum-corrected black holes from classical Kerr black holes through future observations.
Significance: This study contributes to our understanding of black hole physics in the context of quantum gravity. It highlights the potential of black hole shadow observations as a tool to probe and test theories of quantum gravity.
Limitations and Future Research: The research primarily focuses on two specific quantum-corrected black hole models. Exploring the effects of quantum corrections on black hole shadows using other quantum gravity models could provide further insights. Additionally, investigating the impact of accretion disks and other astrophysical environments on these shadows would enhance the study's relevance to observational astronomy.
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by Zhenglong Ba... às arxiv.org 11-15-2024
https://arxiv.org/pdf/2411.09374.pdfPerguntas Mais Profundas