physics3 papersavg year 2026quality 6/5weak evidence

The study focuses specifically on Dehnen-type dark matter halos; extension to other dark matter halo profiles and distributions remains unexplored.

Research gap analysis derived from 3 physics papers in our local library.

The gap

The study focuses specifically on Dehnen-type dark matter halos; extension to other dark matter halo profiles and distributions remains unexplored.

Consensus across the literature

Clustered from 3 gap mentions across 3 papers via embedding cosine ≥ 0.62.

Research trend

Established — well-defined area with open sub-problems.

Supporting evidence — 3 representative gaps

  • Strongly interacting dark matter admixed neutron stars (2026) · doi

    The paper identifies solutions with light dark matter (mC = 0.5 GeV) that form massive dark matter halos (>4 M⊙) at ordinary matter radii similar to neutron stars, but does not specify the formation mechanisms, stability criteria, or observational distinguishability of these non-standard compact stellar objects from conventional neutron stars.

    Keywords: dark matter halos compact stellar objects formation mechanisms stability criteria neutron stars
  • The Electric Field Equations in General Relativity (2026) · doi

    The paper introduces a previously undefined 'dark matter horizon' Rd inferred from equation (27) but does not provide independent physical justification for why dark matter should define a cosmological event horizon analogous to dark energy. Detailed investigation of the relationship between dark matter density distribution and the proposed horizon boundary is needed to distinguish this concept from existing dark matter halo models.

    Keywords: dark matter horizon dark matter density parameter cosmological event horizon nucleon radius coupling constant
  • Analytic Expressions for Quasinormal Modes of a Regular Black Hole Sourced by a Dehnen-Type Halo (2026) · doi

    The study focuses specifically on Dehnen-type dark matter halos; extension to other dark matter halo profiles and distributions remains unexplored.

    Keywords: dark matter focuses specifically dehnen type halos extension halo profiles distributions remains unexplored

Explore this gap further

Search “The study focuses specifically on Dehnen-type dark matter halos; extension to other dark matter halo profiles and distributions remains unexplored.” across open scholarly engines for the latest related literature.

Working on this gap? Publish with us.

Science AI Journal reviews manuscripts in under 15 minutes with 8 specialised AI reviewers calibrated on 23,000+ real peer reviews. Open access, CC BY 4.0.

Related gaps in Physics

Command palette

Jump anywhere, run any action.