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Stochastic gravitational wave background from smoothed cosmic string loops

Canonical reference. 71% of citing Pith papers cite this work as background.

11 Pith papers citing it
Background 71% of classified citations
abstract

We do a complete calculation of the stochastic gravitational wave background to be expected from cosmic strings. We start from a population of string loops taken from simulations, smooth these by Lorentzian convolution as a model of gravitational back reaction, calculate the average spectrum of gravitational waves emitted by the string population at any given time, and propagate it through a standard model cosmology to find the stochastic background today. We take into account all known effects, including changes in the number of cosmological relativistic degrees of freedom at early times and the possibility that some energy is in rare bursts that we might never have observed.

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representative citing papers

High-Quality Axion Dark Matter at Gravitational Wave Interferometers

hep-ph · 2025-09-17 · unverdicted · novelty 5.0

In gauged U(1) completions enabling high-quality axion dark matter, cosmic string loops generate a stochastic gravitational wave background with an infrared break frequency that exceeds foregrounds above 10^14 GeV breaking scales and offers a probe at interferometers.

Probing High-Quality Axions with Gravitational Waves

hep-ph · 2026-04-10 · unverdicted · novelty 5.0

High-quality axion models with N_DW=1 and dark matter abundance requirement restrict the gauge breaking scale to 1.6e11-1e16 GeV, yielding a band of gravitational wave signals from two-step phase transitions consistent with current observations.

Majoron Dark Matter, High-Scale Seesaw, and Leptogenesis

hep-ph · 2026-06-01 · unverdicted · novelty 4.0

Majoron dark matter is viable for sub-MeV masses in high-scale seesaw models with thermal leptogenesis, produced via misalignment and cosmic strings in pre- and post-inflationary scenarios and constrained by CMB, X-ray, and gravitational wave observations.

The landscape of QCD axion models

hep-ph · 2020-03-02 · unverdicted · novelty 2.0

Review classifies QCD axion models extending the standard mass-coupling window and updates bounds from cosmology, astrophysics, and experiments.

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Showing 6 of 6 citing papers after filters.

  • New gravitational-wave templates for metastable cosmic strings: Loop breaking versus network collapse hep-ph · 2026-04-30 · unverdicted · none · ref 74

    Metastable cosmic strings produce a gravitational wave background that is best modeled with three parameters (string tension Gμ plus independent time scales t_LB and t_NC), yielding a compact analytical spectrum when t_LB greatly exceeds t_NC.

  • High-Quality Axion Dark Matter at Gravitational Wave Interferometers hep-ph · 2025-09-17 · unverdicted · none · ref 88 · internal anchor

    In gauged U(1) completions enabling high-quality axion dark matter, cosmic string loops generate a stochastic gravitational wave background with an infrared break frequency that exceeds foregrounds above 10^14 GeV breaking scales and offers a probe at interferometers.

  • Gravitational Wave Signature and the Nature of Neutrino Masses: Majorana, Dirac, or Pseudo-Dirac? hep-ph · 2025-09-12 · unverdicted · none · ref 42 · internal anchor

    In the minimal B-L gauge extension, Majorana neutrinos at high breaking scale produce flat GW spectra from cosmic strings, Dirac at low scale produce peaked spectra from first-order phase transitions, and pseudo-Dirac produce kink features from domain wall annihilation.

  • Probing High-Quality Axions with Gravitational Waves hep-ph · 2026-04-10 · unverdicted · none · ref 40

    High-quality axion models with N_DW=1 and dark matter abundance requirement restrict the gauge breaking scale to 1.6e11-1e16 GeV, yielding a band of gravitational wave signals from two-step phase transitions consistent with current observations.

  • Majoron Dark Matter, High-Scale Seesaw, and Leptogenesis hep-ph · 2026-06-01 · unverdicted · none · ref 142 · internal anchor

    Majoron dark matter is viable for sub-MeV masses in high-scale seesaw models with thermal leptogenesis, produced via misalignment and cosmic strings in pre- and post-inflationary scenarios and constrained by CMB, X-ray, and gravitational wave observations.

  • The landscape of QCD axion models hep-ph · 2020-03-02 · unverdicted · none · ref 242 · internal anchor

    Review classifies QCD axion models extending the standard mass-coupling window and updates bounds from cosmology, astrophysics, and experiments.