Quantum gravity represents the frontier where the very large meets the very small, attempting to unify Einstein's theory of gravity with the strange rules of quantum mechanics. This field explores the fundamental fabric of spacetime, seeking to understand how the universe behaves at its most extreme scales, from the heart of black holes to the moment of the Big Bang. Because these concepts often involve complex mathematics, they can feel distant to non-specialists, yet they hold the key to a complete picture of physical reality.

At Gist.Science, we bridge this gap by processing every new preprint in this category directly from arXiv. Our team provides both plain-language explanations and detailed technical summaries for each paper, ensuring that groundbreaking research is accessible to everyone, from curious students to seasoned researchers. Below are the latest papers in quantum gravity, offering fresh insights into the nature of our cosmos.

Holographic CFT Phase Transitions and Criticality for Einstein-Maxwell-Power-Yang-Mills AdS Black Holes

This paper investigates the thermodynamic phase transitions of Einstein-Maxwell-power-Yang-Mills AdS black holes via holographic duality, revealing that increasing the non-Abelian Yang-Mills charge suppresses confinement stability and induces distinct van der Waals-like and Hawking-Page transitions depending on the thermodynamic ensemble.

Mohammad Reza Alipour, Mohammad Ali S. Afshar, Saeed Noori Gashti, Behnam Pourhassan2026-02-26⚛️ hep-th

Beyond Gaussian Assumptions: A new robust statistical framework for gravitational-wave data analysis

This paper presents a robust statistical framework utilizing an extended hyperbolic likelihood method that maintains high performance under ideal Gaussian conditions while significantly improving parameter estimation accuracy and resilience against non-Gaussian noise and outliers in gravitational-wave data analysis.

Argyro Sasli, Minas Karamanis, Nikolaos Karnesis, Michael W. Coughlin, Vuk Mandic, Uroš Seljak, Nikolaos Stergioulas2026-02-26⚛️ gr-qc

On the intrinsically flat cosmological models in a lattice

This paper investigates intrinsically flat spacetimes as viable cosmological models for periodic inhomogeneous matter distributions, establishing their geometric foundations, proving the existence and uniqueness of solutions to Einstein's equations under periodic boundary conditions, and presenting exact solutions that transition from early-time homogeneity to late-time structures of peaks and voids.

Eduardo Bittencourt, Leandro G. Gomes, Grasiele B. Santos2026-02-25⚛️ hep-th

Exploring the presence of a fifth force at the Galactic Center

Using a Markov Chain Monte Carlo analysis of S2 star data from 1992 to 2022, this study establishes the most stringent upper limit to date for a Yukawa-like fifth force at the Galactic Center, constraining its intensity to α<0.003|\alpha| < 0.003 for a scale length of approximately 200 AU.

The GRAVITY Collaboration, K. Abd El Dayem, R. Abuter, N. Aimar, P. Amaro Seoane, A. Amorim, J. P. Berger, H. Bonnet, G. Bourdarot, W. Brandner, V. Cardoso, Y. Clénet, R. Davies, P. T. de Zeeuw, A. Dr (…)2026-02-25⚛️ gr-qc