Virgo TDS

3.0

https://tds.virgo-gw.eu/ql/?i=VIR

COPYRIGHT

GraWIToN

PPPS

Virgo

?

?

LOG-IN

View Code details

?

?

Title

?

LVK Publication Planning Procedures

Author(s)

?

Peter Shawhan, Giancarlo Cella, Stephen Fairhurst, Stefan Ballmer

Document type

?

Procedure

Code

?

VIR-0696A-20

Uploaded document(s)

?

- You do not have permission to view files attached to this Code.

Date Code requested

?

03:13, Thursday, 06 August, 2020

Code creator

?

pshawhan

Referral URI

?

https://tds.virgo-gw.eu/ql/?c=15821

Wait time

?

This Code has been frozen and can only be modified by creating a new Release.

Referees

LIGO DCC URI

ArXiv URI

Journal

Journal URI

Circulation date

LVC presentation date

Publication date

Speaker

Type

Invited

Abstract

Access Privileges

?

VIEW

CREATE NEW RELEASE

LKV

Accessible by users in the following groups:

Virgo, STAC, LSC, KAGRA

Series

?

Related Codes

?

- Prospects for Advanced gravitational wave detector network (VIR-0901A-17)
- cWB O1 all-sky generic transient search status (VIR-0198A-16)
- "Characterization of the gravitational wave emission from binary neutron stars mergers" (VIR-1269A-19)
- "Reggio di Calclolo": Status and challanges in Virgo computing (VIR-0253A-15)
- 2017-2018 LSC-Virgo Data Analysis White Paper (VIR-0435D-17)
- 2019 Amaldi conference abstract: Full coherent searches for continuous gravitational waves with the second observing run (VIR-0484A-19)
- A Hamiltonian Monte Carlo sampler for BNS sources (VIR-0484A-18)
- A New Method to Observe Gravitational Waves emitted by Core Collapse Supernovae (VIR-0621C-18)
- A New Method to Observe Gravitational Waves emitted by Core Collapse Supernovae (VIR-0635D-18)
- A Preliminary Analysis and Proposal for Virgo Data Management (VIR-0523C-20)
- A convoluted neural network implementation for the search for compact binary signals at Virgo (Abstract for Amaldi Conference) (VIR-0218A-19)
- A directed search of continuous gravitational-wave signals from the Galactic center in Advanced LIGO second observing run (VIR-0991B-19)
- A directed search of continuous wave signals from the Galactic center in Advanced LIGO's second observing run (VIR-0211A-19)
- A hybrid post-Newtonian -- effective-one-body scheme for spin-precessing compact-binary waveforms (VIR-0426A-20)
- A method for directed searches of continuous gravitational waves in advanced detector data (VIR-0352B-18)
- A method to search for long duration gravitational waves from isolated neutron stars using the generalized FrequencyHough (VIR-0569C-18)
- A new data analysis framework for the search of continuous gravitational wave signals (VIR-0954A-17)
- A resampling algorithm to detect continuous-wave signals from neutron stars in binary systems (VIR-0516D-19)
- A semi-coherent analysis method to search for continuous gravitational waves emitted by ultra-light boson clouds around spinning black holes (VIR-0563C-18)
- AMALDI ABSTRACT: Measuring the impact of the gravitational wave intrinsic geometry and detector networks on the Hubble constant measure (VIR-0531A-19)
- Accretion-induced prompt black hole formation in asymmetric neutron star mergers, dynamical ejecta and kilonova signals (VIR-0257A-20)
- Adapting a semi-coherent method to directly detect dark photon dark matter interacting with gravitational-wave interferometers (VIR-0744B-20)
- Advanced Virgo Computing Needs 2019 (VIR-0818B-18)
- All-sky Searches for Continuous Waves from Binary Neutron Stars (VIR-0468A-14)
- All-sky search for continuous gravitational waves from boson clouds around stellar mass black holes (VIR-0193A-19)
- All-sky search for continuous gravitational waves from boson clouds around stellar mass black holes (VIR-0747A-19)
- An enhanced sensitivity procedure for continuous gravitational-wave detection (VIR-0432B-16)
- An enhanced sensitivity procedure for continuous gravitational-wave detection (VIR-0530A-17)
- An extended all-sky search for continuous gravitational waves with the frequencyHough pipeline (VIR-0204B-19)
- An improved semi-coherent follow-up method for FrequencyHough all-sky Continuous Waves (CW) candidates (VIR-0395A-17)
- An improved semi-coherent follow-up method for FrequencyHough all-sky Continuous Waves (CW) candidates (VIR-0396A-17)
- An improved semi-coherent follow-up method for FrequencyHough all-sky Continuous Waves (CW) candidates (VIR-0397B-17)
- An update on the Continuous-Wave working group research activities (VIR-0419A-20)
- Analyzing and assessing in low latency the confidence of Gravitational Waves events for public alerts dissemination (VIR-0869A-19)
- Anomaly Detection in Time-Frequency maps using Generative Adversarial Networks (VIR-0611A-20)
- Application as a new Virgo group: Utrecht University (VIR-1066D-19)
- BSN postmerger with stamp (O2 & O3) (VIR-0833A-17)
- Bayesian inference for binary neutron star inspirals using a Hamiltonian Monte Carlo Algorithm (VIR-0510A-18)
- Black Hole remnant of black hole - neutron star remnant (VIR-0344A-19)
- Black-Hole remnants from black-hole-neutron-star mergers (VIR-0290A-19)
- Blind Gravitational-wave Polarisation Reconstruction from noisy observations (VIR-0748A-18)
- Burst group activities update (VIR-0027A-18)
- Burst group overview (VIR-0205A-18)
- Burst group update (VIR-0598A-20)
- Burst overview (VIR-0398B-14)
- Burst update ( Virgo contribution ) (VIR-0030B-17)
- Burst update VW April27 2020 (VIR-0402A-20)
- Burst update Virgo week 5-8 Nov 2018 (VIR-0764A-18)
- CBC Review: roles and responsibilities (VIR-0467A-20)
- CBC Update (VIR-0052A-19)
- CBC Update - Virgo Week 27-30 April (VIR-0400A-20)
- CBC Update - Virgo Week July 2020 (VIR-0616A-20)
- CBC Update 16/04/18 (VIR-0209A-18)
- CBC Update Virgo Week November 2018 (VIR-0755B-18)
- CBC Update for Virgo Week July 2019 (VIR-0688A-19)
- CBC f2f: Testing general relativity (VIR-0842A-17)
- CBC status update current analysis (VIR-0034B-17)
- CBC update (VIR-0029A-18)
- CBC update April 2019 (VIR-0407A-19)
- CBC update, Virgo week July 2018 (VIR-0465A-18)
- CW Hardware Injections in O3 (VIR-0467A-18)
- CW Virgo group update (VIR-1103A-19)
- CW Virgo update (VIR-0749B-18)
- CW computing issues (to be presented at ECC on October, 23th). (VIR-0702C-18)
- Compact Binary Mergers during the Advanced LIGO/Virgo O3a Observation Run (VIR-1021A-19)
- Computational Techniques for Parameter Estimation of Gravitational Wave Signals (VIR-0465B-20)
- Computational cost for stochastic GW background search (VIR-1206A-19)
- Computing Infrastructure and Data Processing for Offline Analyses @ Nov 2018 Virgo Week (VIR-0756A-18)
- Computing issues in experimental gravitational wave research: Virgo computing (VIR-0254A-15)
- Computing requirements in the 3G era (VIR-0599A-18)
- Constraining the fraction of binary black holes formed in isolation and young star clusters with gravitational-wave data (VIR-0468A-19)
- Constraints on cosmic strings using data from the first Advanced LIGO Observing run. (VIR-0753A-17)
- Continuous gravitational-wave data analysis with General Purpose computing on Graphic Processing Units (VIR-0136A-18)
- Continuous-Wave search highlights (VIR-0321A-17)
- Continuous-Wave (CW) Group Activities and Publication Plan (VIR-0685B-19)
- Continuous-Wave Virgo Group Update (VIR-0023A-18)
- Continuous-wave update and O3 plans (VIR-0372C-19)
- Contributive chapter for a book: Measuring cosmological parameters with gravitational waves (VIR-0777A-20)
- Cosmic archaeology with massive stellar black hole binaries (VIR-0014A-20)
- DA Update (VIR-0416A-20)
- DA report to VSC (VIR-0347A-20)
- DA report to VSC (VIR-0530A-20)
- DA report to VSC (VIR-0658A-20)
- DA report to VSC (VIR-0712A-20)
- DA report to the STAC (VIR-0476D-20)
- DA report to the VSC - Publication plan (VIR-0198A-20)
- Data Analysis Report to the VSC (VIR-0502A-20)
- Data analysis general update (VIR-0105A-20)
- Data analysis report to VSC 25/3/2020 (VIR-0304B-20)
- Data analysis report to the EGO Council (VIR-0511B-20)
- Data analysis update (VIR-0498A-18)
- Data quality plans from Virgo (What you should expect to see soon...) (VIR-0461A-13)
- Deep Learning classification for Gravitational Waves from Core-Collapse Supernovae (VIR-1248A-19)
- Deep Learning classification for Gravitational Waves from Core-Collapse Supernovae (VIR-1249A-19)
- Deep Learning classification for Gravitational Waves from Core-Collapse Supernovae (VIR-1250A-19)
- Deep learning classification of the continuous gravitational-wave signal candidates from the time-domain F-statistic search (VIR-0208A-19)
- Detchar/calibration: CW perspective (VIR-0670B-19)
- Detectability of continuous gravitational waves from isolated neutron stars in the Milky Way: the population synthesis approach (VIR-0613B-20)
- Detecting a stochastic gravitational-wave background in the presence of correlated magnetic noise (VIR-0661B-20)
- Detecting dark photon dark matter with continuous wave techniques (VIR-0614A-20)
- Detection of GW bursts with chirplet-like template families (VIR-0263B-10)
- Detection of gravitational wave transients: estimating signal waveforms errors with minimal assumptions (VIR-0482A-17)
- Direct constraints on ultra-light bosons mass from searches of continuous gravitational waves (VIR-0800A-19)
- Directional Search for Persistent Gravitational Waves (VIR-0259A-15)
- Disclosing the features of transient gravitational waves independently from waveform models (VIR-0292A-19)
- Disclosing the features of transient gravitational waves independently from waveform models (VIR-0728A-19)
- Dreaming of three chirps: Virgo's view of the current detections (VIR-0083A-20)
- Driving unmodelled gravitational-wave transient searches using astrophysical information (VIR-0254D-18)
- EM-MBTA development: low latency ranking of galaxies within a gravitational-wave sky localization (VIR-0525A-18)
- EM-MBTA: Low Latency Ranking of Galaxies within a Gravitational-wave Sky Localization (VIR-0755A-19)
- Effect of precession on sky-localization & low latency parameter estimation (VIR-0197A-16)
- Efficiency studies of the all-sky FrequencyHough search for continuous gravitational waves (VIR-0384A-17)
- Electromagnetic follow-ups of triple coincidences (VIR-0639A-10)
- Enhanced sensitivity procedure for directed searches of gravitational waves emitted by isolated neutron stars (VIR-0521A-17)
- Enhancing un-modelled gravitational wave searches (VIR-0386C-17)
- Entering the multi messenger area of Astronomy (VIR-0264A-19)
- Estimation of waveform uncertanities with CWB (VIR-0309A-16)
- Expanding Core-Collapse Supernova Search Horizon of Neutrino Detectors (VIR-1145A-19)
- Exploiting Neutron Star mergers with a network of advanced gravitational-wave detectors (VIR-0122A-18)
- Extracting the post-merger gravitational wave signal from binary neutron stars. (VIR-0687C-17)
- Fast localization of coalescing binaries with a heterogeneous network of advanced gravitational wave detectors (VIR-0074B-19)
- Fermi GBM follow-up of LIGO-Virgo Binary black hole mergers - detection prospects (VIR-0471A-19)
- First tests of a moment autocorrelation method to detect GW from pulsars in binary systems (VIR-0292D-13)
- Follow-up procedure for gravitational wave searches from isolated neutron stars using the time-domain F-statistic method (VIR-0346A-19)
- Foundation Policies and Technical Goals of the LVC Multi-Messenger Follow-up Program (VIR-0117B-18)
- Frequency domain numerical simulation of a gravitational wave's stochastic background (VIR-0329A-14)
- Full coherent narrow-band search for gravitational waves from known pulsars using the LIGO O2 data (VIR-0913A-18)
- Fundamental physics from gravitational wave observations (VIR-0612B-18)
- GPU version of the Polgraw all-sky time-domain F-statistic pipeline (VIR-0181A-16)
- GPUs in gravitational wave physics (VIR-0394A-14)
- GW transient event naming convention: second report and recommendation (VIR-0429B-20)
- GW transient searches to probe Neutron star physics (VIR-0524A-17)
- GW transient un-modeled searches and characterization of the waveform signal (VIR-0539B-18)
- GW190412 as a Third-Generation Black Hole Merger from a Super Star Cluster (VIR-0433A-20)
- GW190425: A high-mass neutron star binary coalescence observed by LIGO and Virgo (VIR-1096A-19)
- Galaxy catalogs and the follow-up of GW event (VIR-0103A-20)
- Generalized resampling methodology for binary pulsars (VIR-0410B-17)
- Gravitational Wave Signatures of Primordial Black Holes. (VIR-0104A-20)
- Gravitational Wave Transient Sources What we learn from them (VIR-0408A-18)
- Gravitational Wave detectors of near future (VIR-1178A-19)
- Gravitational wave modelling with machine learning (VIR-0422A-20)
- Gravitational wave observations, distance measurement uncertainties, and cosmology (VIR-0532C-19)
- Gravitational waves from a rotating ellipsoid in Jordan Brans Dicke theory (VIR-0816B-18)
- Gravitational-wave energy, peak luminosity and angular momentum of binary neutron star mergers - Numerical relativity fits. Repo: https://git.ligo.org/sebastiano.bernuzzi/bns_lum (VIR-0647C-18)
- Gravitational-wave lensing with ground-based gravitational-wave detectors (VIR-0625A-20)
- Gravitational-wave merger forecasting: scenarios for the early detection and localization of compact-binary mergers with ground based observatories (VIR-0709B-20)
- Gravitational-wave observations and distance measurement uncertainties (VIR-0993B-19)
- H0 Statistical paper chronology (VIR-0473A-18)
- Horizon to range relation for near face-on binaries (VIR-0244A-16)
- How effective is machine learning to detect long transient gravitational waves from neutron stars in a real search (VIR-0722A-19)
- Identifying noise lines @ Virgo for stochastic searches (VIR-0311A-20)
- Image based classification of transients from simulated LSST data. EGO Internship report on Machine Learning, under E. Cuoco supervision. (VIR-0924A-18)
- Implications of LIGO/Virgo gravitational wave detections. Presentation at the conference Dark Side of the Universe, Annecy. (VIR-0436A-18)
- Implications of the LIGO/Virgo gravitational wave detections for fundamental physics and cosmology. (VIR-0335A-18)
- Implications of the binary coalescence events found in O1 and O2 for the stochastic background of gravitational events (Proceedings for Moriond Gravitation 2019) (VIR-0476A-19)
- Inferring prompt black-hole formation in neutron star mergers from gravitational-wave data (VIR-0795B-19)
- Intermediate-mass black hole mergers: precessing vs. head-on collisions. (VIR-0101A-20)
- Introducing an Omicron metric to reject CBC glitches (VIR-0423A-20)
- Introduction to gravitational waves observations (VIR-0636A-19)
- Joint searches of gravitational waves and high-energy neutrinos (VIR-0356A-10)
- LENSINGGW: a PYTHON package for lensing of gravitational waves (VIR-0519A-20)
- LIGO-Virgo search for eccentric BBH in O1-O2 data (VIR-0765A-18)
- LIGO-Virgo searches for generic transient gravitational waves using cWB (VIR-0686A-17)
- LIGO/Virgo : current status and future plans (Presentation at the IPTA 2017 meeting, Sevres, France) (VIR-0528A-17)
- LIGO/Virgo comparison of issues related to reconstructed h(t) channels. (VIR-0416A-10)
- LSC-Virgo review for Discrete Resampling Technique (slides) (VIR-0355A-10)
- Lensed or not lensed: Determining lensing magnifications for binary neutron star mergers from a single detection (VIR-0139A-20)
- Linear-oscillation spectrum of proto-neutron stars (VIR-0559A-17)
- Long Duration Burst Search: GWPyxel¶ (VIR-0608A-20)
- Long Search O2 results with cWB (VIR-0476A-18)
- Low Latency EM infrastructure for OPA - VSC (VIR-0630A-18)
- Low latency discussion at Virgo Week: introduction (VIR-0605A-20)
- Low latency search for Gravitational Waves in the Advanced Virgo Suspension Control System (GWADW2017 poster) (VIR-0282A-17)
- Low latency searches for gravitational waves during O1 (VIR-0224A-16)
- MBTA O3 plans (VIR-0218A-18)
- MBTA Status (VIR-0063A-20)
- MBTA low latency pipeline: storage and computing needs for O3 (VIR-0729A-18)
- MBTA offline status report - Virgo Week July 2020 (VIR-0627A-20)
- MBTA status (VIR-1074A-19)
- MBTA status - VW 1 July 2019 (VIR-0666A-19)
- MBTA status and results (VIR-0374A-19)
- MBTA update at the Jan. 2019 Virgo week (VIR-0042A-19)
- MBTA – A low-latency analysis pipeline for CBCs in the advanced GW detector era (VIR-0102B-16)
- MBTA/DAQ test machine (VIR-0459A-12)
- MBTA: from O2 to O3 (VIR-0840A-17)
- Machine-Learning Classification Of Core-Collapse Supernovae And Detector Glitches (VIR-0205A-19)
- Minutes of the transient F2F meeting, January 22nd 2018 (VIR-0078A-18)
- Monte Carlo Markov Chains follow-up algorithms for continuous gravitational waves searches (VIR-0210A-18)
- Multiband Gravitational Wave Parameter Estimation: A Study of Future Detectors (VIR-1204B-19)
- New Method to Combine Statistics from Different Experiments (LEN-GW) for Joint Core-Collapse Supernova (CCSN) Search (VIR-0757A-18)
- Noise Monitor Application by introducing the bispectral Higher-Order Spectral Analysis (HOSA) (VIR-0004A-13)
- Non gaussian stochastic background search with importance sampling (VIR-0862A-19)
- Nonlinear waveform reconstruction study - Higher-Order Spectral Analysis (HOSA) (VIR-0426A-12)
- Note on a gravitational waves from rigid ellipsoid in Brans-Dicke theory (VIR-0815B-18)
- Note on a gravitational waves from rigid ellipsoid in Brans-Dicke theory (VIR-0817A-18)
- Novel algorithm to search for CWs from NSs in binary systems (VIR-0430A-16)
- Novel directed search strategy to detect continuous gravitational waves from neutron stars in low- and high-eccentricity binary systems (VIR-0365B-16)
- O1 and O2 single Interferometer triggers in association with Fermi-GBM events (VIR-0032A-19)
- O1 narrow-band search results for three pulsars (VIR-0194B-16)
- O1 overview and schedule LV-EM Forum Telecon (Thursday, May 12, 2016) (VIR-0237A-16)
- O3 CWB preliminary detchar analysis (VIR-0404A-19)
- O3a/O3b CBC update (VIR-0135A-20)
- O3b cWB Alerts and CED (VIR-0028A-20)
- O3b data mitigation updates at the Virgo Detchar meeting (VIR-0740A-20)
- Observation of gravitational waves from a binary neutron-star merger with LIGO and Virgo detectors. Presentation at: Clues on GRB origin from chemical evolution models Sexten Center for Astrophysics 2018/01/29-2018/02/02 (VIR-0076A-18)
- Observation of gravitational waves from a binary neutron-star merger with LIGO and Virgo detectors. Summary: Presentation of the results associated to GW170817, limiting to the gravitational wave side. This is within the ASI (Italian Space Agency) workshop "Onde gravitazionali, fotoni e neutrini: l’inizio di una nuova Astronomia multi-messaggero dallo spazio e dalla Terra", December 4th 2017. Agenda at: http://www.asi.it/it/eventi/workshop/workshop-onde-gravitazionali-asi-4-dicembre.. WARNING: due to file size limit I upload a pdf , thus no animations and videos (nio new material..these are taken from our outreach pages..). ====>NOTE: I have added the comments received by P&P (a few references to papers to be added in the plots. And the "for LV collaboration") (VIR-0910A-17)
- Observational Black Hole Spectroscopy: A time-domain multimode analysis of GW150914 (VIR-0095A-19)
- Observational Black Hole Spectroscopy: A time-domain multimode analysis of GW150914 (Paper) (VIR-0111A-19)
- Observational Black Hole spectroscopy: A time domain analysis of black hole ringdown (Amaldi13-GR22) (VIR-0746A-19)
- Observational black hole spectroscopy: A time domain analysis of black hole ringdown (Amaldi13) (VIR-0740A-19)
- Offline Fermi-GBM follow-up of LIGO/Virgo CBC and burst triggers in O1, O2 and O3 (VIR-0102A-20)
- Omicron tutorial (VIR-0135A-15)
- Omicron: an algorithm to detect and characterize transient events in gravitational-wave detectors (VIR-0545C-14)
- Open Data Workshop: Specific Issues for CBC Analysis (VIR-0497A-20)
- Open data and data analysis: introduction (VIR-0491A-20)
- Open data: Specific issues with Stochastic analysis (VIR-0488A-20)
- Open data: input from the burst group (VIR-0495A-20)
- Optical follow-up program with TAROT and Zadko: lessons learned (VIR-0223A-12)
- Optimizing gravitational-wave searches for a population of coalescing binaries: Intrinsic parameters (VIR-0471A-13)
- Overview of cWB off-line results for Stellar Mass BBH search on O2 run (VIR-0203A-18)
- PMNS-Virgo-week (VIR-0826A-17)
- Parameter estimation for strong phase transitions in supranuclear matter using gravitational-wave astronomy (VIR-0606A-20)
- Phase decomposition of the template metric for continuous gravitational-waves analysis (VIR-0435B-18)
- Plans for O3 CW Hardware Injections (VIR-0397A-18)
- Predicting remnant black hole properties with neural networks (VIR-0601A-20)
- Present results and future challenges with the network of gravitational wave detectors. Invited Presentation at: Current problems in theoretical physics: Gravitational Waves Vietri Sul Mare 2018/03/26 http://paft18.sa.infn.it/ (VIR-0159A-18)
- Probing modified gravity theories and cosmology using gravitational-waves and associated electromagnetic counterparts (VIR-0259B-20)
- Progenitors of low-mass binary black-hole mergers in the isolated binary evolution scenario (VIR-0328A-20)
- Proposal for the future of CBC catalogs (VIR-0301A-20)
- Prospects about X- and gamma-ray counterparts to gravitational wave signals with INTEGRAL (VIR-0815A-17)
- PyCBC OSG (VIR-0736A-18)
- PySTAMPAS: a long transient gravitational wave search pipeline (VIR-0699A-20)
- Quantum Noise simulation package (PPPS-0001A-14)
- Realtime search for compact binary mergers in Advanced LIGO and Virgo’s third observing run using PyCBC Live (VIR-0693C-20)
- Recent results and future challenges for continuous waves and stochastic background searches with a network of gravitational wave detectors. Invited talk at GRAvitational waves Science-Technology Symposium ” Padova, 2018/03/01-02. Added the comments from P&P (got the approval) (VIR-0112B-18)
- Recognizing black holes in gravitational-wave observations: Telling apart pretenders in mass-gap binaries (VIR-0305D-20)
- Review and paper quality (VIR-0492A-20)
- Robust estimation of the waveform of gravitational-wave transient signals by a general method (VIR-0688A-17)
- Robustness of templates for detecting gravitational wave bursts from cosmic strings cusps and kinks. (VIR-0361A-16)
- Running LDG analysis pipelines on Virgo compute clusters (VIR-0511A-13)
- STAC presentation on Offline Pipelines (VIR-0700A-18)
- Safety tests on new h(t) gating technique for MBTA (VIR-0009B-19)
- Schumann Resonance Coherence Between Villa Cristina and VIRGO (VIR-0357A-16)
- Search Plan: LSC-Virgo Searches For Transient Gravitational Waves From Isolated Neutron Stars (VIR-0252A-15)
- Search Plan: Search for an Isotropic Stochastic Gravitational Wave Background (VIR-0258A-15)
- Search for gravitational wave transient searches in LIGO-Virgo data (VIR-0864A-19)
- Search for gravitational waves from known pulsars in O1, O2 and O3a data with F-statistic (VIR-0065B-20)
- Search for gravitational waves with short time duration in the Advanced LIGO and Virgo (VIR-0215B-19)
- Search for very long transient GW signals from the post-merger remnant of BNS (VIR-0891A-17)
- Search for very long transient GW signals from the post-merger remnant of BNS (VIR-0911A-17)
- Search plan: GW transients from cosmic strings (VIR-0251A-15)
- Searching for Continuous Gravitational-Waves with GPGPU (VIR-0862A-18)
- Searching for continuous gravitational-waves from Galactic neutron stars (VIR-0893C-17)
- Searching for cosmological gravitational-wave backgrounds with third-generation detectors in the presence of an astrophysical foreground (VIR-0458B-20)
- Searching for light scalar dark matter with gravitational waves detectors (VIR-0034A-19)
- Searching for the Stochastic Gravitational-Wave Background with Advanced LIGO and Advanced Virgo Presentation for Moriond Gravitation 2019 (VIR-0293A-19)
- Searching for the Stochastic Gravitational-Wave Background with Advanced LIGO and Advanced Virgo (VIR-0031A-19)
- Searching for the Stochastic Gravitational-Wave Background with Advanced LIGO and Advanced Virgo (VIR-0292A-17)
- Searching gravitational waves from eccentric binary black holes (VIR-0196B-16)
- Setting up a direct search for Continuous Wave signals using the Band Sample Data collection (VIR-0424A-17)
- Silentec – A method to study transient noises and clean the data (VIR-0379A-16)
- Sky localization with Virgo - GWsky comparison (VIR-0625B-17)
- Specific issues for the CW group in reducing the data latency period (VIR-0496A-20)
- Spiral-wave wind for the blue kilonova (VIR-0701A-19)
- StarTrack predictions of the stochastic gravitational-wave background from compact binary coalescences. (VIR-0100A-20)
- Status of CW Studies - ECC Meeting May 2019 (VIR-0542B-19)
- Status of TEOBResumS and related waveform models (VIR-0580A-18)
- Status of the Warsaw all-sky search pipeline (VIR-0324A-17)
- Status report of the search for coincidences between GWs and low Energy neutrino signals from CCSNe (VIR-0310A-16)
- Stochastic GW searches and Cosmology with GWs (VIR-0522A-17)
- Stochastic Group Update (VIR-0424A-20)
- Stochastic Group activities and Publication Plan (VIR-0401A-19)
- Strong and weak lensing of Gravitational Waves: a semi-analytical approach (VIR-1252A-19)
- Study of the Advence Virgo timing resolution for the inspiral low latency pipeline MBTA with software injections (VIR-0275A-12)
- Summary of the April 23 meeting with astronomers (VIR-0177B-15)
- Summary on the work carried out by the IFAE group on stochastic gravitational waves from First Order Phase Transitions (VIR-0592A-20)
- TEOBResum: improved tidal multipolar gravitational waveforms up to merger (VIR-0705A-18)
- Technical note on the measurement of inspiral higher order modes by coherentWaveBurst in GW190814 (VIR-0319B-20)
- Testing The Area Quantisation Hypothesis From Black Hole Ringdown Signals (VIR-0744A-19)
- Testing the area quantisation hypothesis from black hole ringdown signals (VIR-0107B-19)
- Testing the area quantisation hypothesis from black hole ringdown signals (VIR-0206A-19)
- Tests of General Relativity with GW170817 (VIR-0627D-18)
- Tests of general relativity from binary black hole coalescences (VIR-0170A-18)
- The LSC-Virgo White Paper on Gravitational Wave Data Analysis and Astrophysics (2018-2019 edition) (VIR-0119B-18)
- The LSC-Virgo White Paper on Gravitational Wave Data Analysis and Astrophysics (Summer 2019 edition) (VIR-0812B-19)
- The LSC-Virgo-KAGRA Observational Science White Paper (Summer 2020 edition) (VIR-0666B-20)
- The Low-Latency R&D subgroup (VIR-0264A-18)
- The NSBH "coherent" EM/GW projetc (VIR-0606A-18)
- The Origin of LVC’s merging compact objects (from BBHs to DNS) (VIR-0106A-20)
- The Search for Advanced LIGO Single Interferometer Compact Binary Coalescence Signals in Coincidence with Gamma-Ray Events in Fermi-GBM (VIR-1022A-19)
- The detection of Continuous Gravitational Waves in the Advanced Detector Era (VIR-0393C-17)
- The detection of compact binary mergers using the Advanced LIGO and Advanced Virgo detectors (VIR-0727A-19)
- The document on data release policy (VIR-0648B-20)
- The information emission rate of binary black holes remnants detected by LIGO-Virgo obey the Bekenstein-Hod universal bound (VIR-0955A-19)
- The latest news from the Continuous-Wave land (VIR-0596B-20)
- The most recent results in the Continuous Gravitational-Wave LIGO-Virgo Search (VIR-0438A-18)
- The search for continuous gravitational waves with LIGO and Virgo detectors (VIR-0738B-17)
- The stepping-stone sampling algorithm for calculating the evidence of gravitational wave models (VIR-0658A-18)
- Time Domain Simulation of Isotropic Stochastic Background (VIR-0330A-14)
- Tool based on un-modeled transient search to extract Post merger neutron stars properties (VIR-0440A-17)
- Torino group presentation (VIR-0735A-18)
- Total-variation methods for gravitational-wave denoising: performance tests on Advanced LIGO data (VIR-0331A-18)
- Towards the AdV computing model update: CDP part (to be presented at ECC meeting) (VIR-0706C-18)
- Understanding gravitational-wave emission from core-collapse supernovae (VIR-0156A-19)
- Unmodeled characterization of post-merger gravitational wave emission from binary neutron stars coalescence (VIR-0213A-20)
- Unveiling the enigma of ATLAS17aeu (VIR-0462A-18)
- Update Circular with final skymap of GW170104 (VIR-0279A-17)
- Update circular for LIGO/Virgo G270580: candidate retraction (VIR-0514A-17)
- Update on CW activities (VIR-0221B-18)
- Update on ER14 cWB online Virgo contribution (VIR-0323A-19)
- Update on stochastic searches (VIR-0767B-18)
- Upgrades of coherentWaveBurst for burst searches in the O2 run (VIR-0437A-16)
- Upgrading GWcosmo towards O3 H0 estimation. (VIR-0629A-20)
- VIRGO-the-future (my personal vision) (VIR-0486B-20)
- VW Presentation - Expanding Core-Collapse Supernova Search Horizon of Multimessenger Detectors (VIR-0069A-20)
- Vela and J1833-1034 Outlier follow-up (O1) (VIR-0331A-17)
- Virgo Hardware Injections Status (VIR-0914A-19)
- Virgo offline computing and data processing (VIR-0541A-19)
- Virgo offline computing and data processing (VIR-0782A-18)
- Virgo-week PE_slides (VIR-0848A-17)
- Waveforms for coalescing binaries: a status report (VIR-0099A-20)
- Wavegraph clustering for coherent waveburst - Principles, applications, improvements. (VIR-0259A-16)
- Wavegraph updates: method paper & O2 results (VIR-0673A-17)
- Wavelet graphs for the detection of gravitational waves: application to eccentric binary black holes (VIR-0091A-19)
- Wavelet-based search for gravitational wave detection - Updates (VIR-0026F-17)
- Xpipeline closed-box results: the effects of adding Virgo on the global sensitivity of the network for the O2 GRBs with 3 Detectors online (updated with 50% Upper Limits) (VIR-0538D-18)
- cWB ER13 offline analysis (VIR-0093A-19)
- cWB low latency: ER13 and O3 plans (VIR-0039B-19)
- cWB offline O2 searches related to CBC sources (VIR-0825A-17)
- coherent Waveburst, a pipeline for unmodeled gravitational-wave data analysis (VIR-0310C-20)
- coherentWaveBurst contribution to current LVC papers (VIR-0387A-20)
- gwmodel: a Python infrastructure for gravitational wave parameter estimation (VIR-0712A-19)
- kiloHertz gravitational waves from binary neutron star remnants: time-domain model and constraints on extreme matter (VIR-0809A-19)
- ￼￼Gravitational-wave observation: the tale of the discoveries (VIR-0817A-17)

Presentation requests

- Invitations received by members of the Collaboration, to present Virgo or parts of it, must be forwarded to the VEB. In order to ensure a fair distribution of talks to individuals and institutions, the VEB will select a speaker from the Collaboration, trying to keep a good balance between respecting the wishes of conference organizers and the requirement of a fair share of presentations among Collaboration members and the need to promote young colleagues.
- Full Virgo Collaboration Publication and Presentation Rules are available here.