Prospects for detecting and localizing short-duration transient gravitational waves from glitching neutron stars without electromagnetic counterparts
D Lopez, S Tiwari, M Drago, D Keitel, C Lazzaro… - Physical Review D, 2022 - APS
Neutron stars are known to show accelerated spin-up of their rotational frequency called a
glitch. Highly magnetized rotating neutron stars (pulsars) are frequently observed by radio …
glitch. Highly magnetized rotating neutron stars (pulsars) are frequently observed by radio …
Prospects for detecting and localizing short-duration transient gravitational waves from glitching neutron stars without electromagnetic counterparts
D Lopez, S Tiwari, M Drago, D Keitel, C Lazzaro… - Phys. Rev. D, 2022 - inspirehep.net
Neutron stars are known to show accelerated spin-up of their rotational frequency called a
glitch. Highly magnetized rotating neutron stars (pulsars) are frequently observed by radio …
glitch. Highly magnetized rotating neutron stars (pulsars) are frequently observed by radio …
Prospects for detecting and localizing short-duration transient gravitational waves from glitching neutron stars without electromagnetic counterparts
D Lopez, S Tiwari, D Keitel, C Lazzaro, GA Prodi - PHYSICAL REVIEW …, 2022 - iris.unitn.it
Neutron stars are known to show accelerated spin-up of their rotational frequency called a
glitch. Highly magnetized rotating neutron stars (pulsars) are frequently observed by radio …
glitch. Highly magnetized rotating neutron stars (pulsars) are frequently observed by radio …
Prospects for detecting and localizing short-duration transient gravitational waves from glitching neutron stars without electromagnetic counterparts
D Lopez, S Tiwari, M Drago, D Keitel, C Lazzaro… - arXiv preprint arXiv …, 2022 - arxiv.org
Neutron stars are known to show accelerated spin-up of their rotational frequency called a
glitch. Highly magnetized rotating neutron stars (pulsars) are frequently observed by radio …
glitch. Highly magnetized rotating neutron stars (pulsars) are frequently observed by radio …
Prospects for detecting and localizing short-duration transient gravitational waves from glitching neutron stars without electromagnetic counterparts
D Lopez, S Tiwari, M Drago, D Keitel… - Physical …, 2022 - ui.adsabs.harvard.edu
Neutron stars are known to show accelerated spin-up of their rotational frequency called a
glitch. Highly magnetized rotating neutron stars (pulsars) are frequently observed by radio …
glitch. Highly magnetized rotating neutron stars (pulsars) are frequently observed by radio …
[引用][C] Prospects for detecting and localizing short-duration transient gravitational waves from glitching neutron stars without electromagnetic counterparts
D Lopez, S Tiwari, M Drago, D Keitel, C Lazzaro… - Physical Review …, 2022 - par.nsf.gov
Prospects for detecting and localizing short-duration transient gravitational waves from glitching neutron stars without electromagnetic counterparts
D Lopez, S Tiwari, M Drago, D Keitel, C Lazzaro… - Physical Review …, 2022 - digital.csic.es
Neutron stars are known to show accelerated spin-up of their rotational frequency called a
glitch. Highly magnetized rotating neutron stars (pulsars) are frequently observed by radio …
glitch. Highly magnetized rotating neutron stars (pulsars) are frequently observed by radio …
Prospects for detecting and localizing short-duration transient gravitational waves from glitching neutron stars without electromagnetic counterparts
L Dixeena, T Shubhanshu, M Drago, K David… - PHYSICAL …, 2022 - iris.uniroma1.it
Neutron stars are known to show accelerated spin-up of their rotational frequency called a
glitch. Highly magnetized rotating neutron stars (pulsars) are frequently observed by radio …
glitch. Highly magnetized rotating neutron stars (pulsars) are frequently observed by radio …
[PDF][PDF] Prospects for detecting and localizing short-duration transient gravitational waves from glitching neutron stars without electromagnetic counterparts
D Lopez, S Tiwari, M Drago, D Keitel… - PHYSICAL REVIEW D …, 2022 - iris.uniroma1.it
Neutron stars (NSs) are one of the most promising and versatile sources of gravitational
waves (GWs)[1], including both isolated NSs and those in binary systems with other compact …
waves (GWs)[1], including both isolated NSs and those in binary systems with other compact …