Projects with GWOSC data
Some examples of projects using GWOSC data are shown on this page.
Listing a project here does not imply endorsement by LIGO Laboratory,
the LIGO Scientific Collaboration or the Virgo Collaboration.
If you have completed a project with GWOSC data,
please let us know!
Student Ashley Disbrow presents her work
at the 2014 American Astronomical Society
meeting in Washington, DC.
Student Emma Wadley created the installation art,
titled Void (2016), shown above. Her artist statement
includes this description: "I have used black
paper to represent fear through the colour
associated with death, shadows and the deepest
nights ... The addition of light creates an
eerie iridescence and the soundscape aims to
unnerve and intrigue through otherworldly noise
of Gravitational waves and the Mariana Trench."
Scientific Publications
Below are the most recent publications citing GWOSC, based on a
query to INSPIRE.
1) Gravitational radiation from inspiralling compact objects: Spin-spin effects completed at the next-to-leading post-Newtonian order
Gihyuk Cho, Brian Pardo, Rafael A. Porto
arxiv:2103.14612 |
INSPIRE
2) Anomaly Detection in Gravitational Waves data using Convolutional AutoEncoders
Filip Morawski, MichaĆ Bejger, Elena Cuoco,
et al.
arxiv:2103.07688 |
INSPIRE
3) Spin Effects in the Effective Field Theory Approach to Post-Minkowskian Conservative Dynamics
Zhengwen Liu, Rafael A. Porto, Zixin Yang
arxiv:2102.10059 |
INSPIRE
4) Search for continuous gravitational waves from ten H.E.S.S. sources using a hidden Markov model
Deeksha Beniwal, Patrick Clearwater, Liam Dunn,
et al.
arxiv:2102.06334 |
INSPIRE
5) Search for gravitational waves from the coalescence of sub-solar mass and eccentric compact binaries
Alexander H. Nitz, Yi-Fan Wang
arxiv:2102.00868 |
INSPIRE
6) ${\tt bajes}$: Bayesian inference of multimessenger astrophysical data, methods and application to gravitational-waves
Matteo Breschi, Rossella Gamba, Sebastiano Bernuzzi
arxiv:2102.00017 |
INSPIRE
7) Upper Limits on the Isotropic Gravitational-Wave Background from Advanced LIGO's and Advanced Virgo's Third Observing Run
R. Abbott, T.D. Abbott, S. Abraham,
et al.
arxiv:2101.12130 |
INSPIRE
8) Constraining gravitational wave amplitude birefringence and Chern-Simons gravity with GWTC-2
Maria Okounkova, Will M. Farr, Maximiliano Isi,
et al.
arxiv:2101.11153 |
INSPIRE
9) The Issues of Mismodelling Gravitational-Wave Data for Parameter Estimation
O. Edy, A. Lundgren, L.K. Nuttall
arxiv:2101.07743 |
INSPIRE
10) When are LIGO/Virgo's Big Black-Hole Mergers?
Maya Fishbach, Zoheyr Doctor, Thomas Callister,
et al.
arxiv:2101.07699 |
INSPIRE
11) Modeling compact binary signals and instrumental glitches in gravitational wave data
Katerina Chatziioannou, Neil Cornish, Marcella Wijngaarden,
et al.
arxiv:2101.01200 |
INSPIRE
12) First searches for gravitational waves from r-modes of the Crab pulsar
Binod Rajbhandari, Benjamin J. Owen, Santiago Caride,
et al.
arxiv:2101.00714 |
INSPIRE
13) Diving below the spin-down limit: Constraints on gravitational waves from the energetic young pulsar PSR J0537-6910
R. Abbott, T.D. Abbott, S. Abraham,
et al.
arxiv:2012.12926 |
INSPIRE
14) Detection and Parameter Estimation of Gravitational Waves from Binary Neutron-Star Mergers in Real LIGO Data using Deep Learning
Plamen G. Krastev, Kiranjyot Gill, V. Ashley Villar,
et al.
arxiv:2012.13101 |
INSPIRE
15) The MBTA Pipeline for Detecting Compact Binary Coalescences in the Third LIGO-Virgo Observing Run
F. Aubin, F. Brighenti, R. Chierici,
et al.
arxiv:2012.11512 |
INSPIRE
16) SWIGLAL: Python and Octave interfaces to the LALSuite gravitational-wave data analysis libraries
Karl Wette
arxiv:2012.09552 |
INSPIRE
17) Applying Cosmological Principle to Better Probe the Redshift Evolution of Binary Black Hole Merger Rate
Vaibhav Tiwari
arxiv:2012.08839 |
INSPIRE
18) Confluence of Artificial Intelligence and High Performance Computing for Accelerated, Scalable and Reproducible Gravitational Wave Detection
E.A. Huerta, Asad Khan, Xiaobo Huang,
et al.
arxiv:2012.08545 |
INSPIRE
19) Testing the black-hole area law with GW150914
Maximiliano Isi, Will M. Farr, Matthew Giesler,
et al.
arxiv:2012.04486 |
INSPIRE
20) Deep learning for clustering of continuous gravitational wave candidates II: identification of low-SNR candidates
B. Beheshtipour, M.A. Papa
arxiv:2012.04381 |
INSPIRE
Other Projects
Pioneer Academics student projects (2020)
Projects mentored by Eric Myers
Final papers:
Vinh Nguyen |
Pranjal Gehlot |
Harry Yu |
Xuanming (Rudy) Zhang |
Yash Kothari
Pioneer Academics student projects (2019)
Projects mentored by Eric Myers
Final papers:
Langqing Yi |
Erim Esref HAKKI |
Jiawei Qiu
Effect of Low Frequency Noise in Detection of Gravitational Waves
Baisakhi Mitra
Report on github
Gravitational Wave Events (iPhone App)
Peter Kramer
Available from Apple
Pioneer Academics student projects (2018)
Projects mentored by Eric Myers
Final papers:
Jingyi Zhang |
Yue Pan
Pioneer Academics student projects (2017)
Projects mentored by Eric Myers
Final papers:
Joalda Morancy |
Kriti Verma
Evidence for Small-Strain Burst Sources Proliferating in Enhanced-LIGO Time Series Data
Stanley W. Wong and Baokun Gu
Report on Google Docs
Calculating detection ranges for binary black holes
Bassel Heiba
Code on github
GW150914 Kaggle Projects
Created by Elena Cuoco
GW150914 data in Kaggle
Online Course - LIGO: Detecting Gravitational Waves
Created at Sonoma State University by Lynn Cominsky
SSU LIGO Courses |
2016 Course
Pioneer Academics student projects
Projects mentored by Eric Myers
Final papers:
Zhehao Lu |
Minqi Fu
Art Installation: Void
Emma Wadley
See photo at right
Modified LIGO data analysis notebook
Valentin Baillard
Azure |
mybinder |
github
Physics From Planet Earth homework problems
Joe Amato and Enrique (Kiko) Galvez
See
Gravitational Radiation 2
and
Gravitational Radiation 3
Non-Gaussian noise and data analysis of laser
interferometric gravitational wave detectors
Takahiro Yamamoto, Ph.D. Thesis
See
JGW-P1605355
Gravitational Wave Detection in the Introductory Lab
Lior M. Burko
Georgia Gwinnett College,
See
arxiv:1602.04666
Pioneer Academics student projects
Projects mentored by Eric Myers
Final papers:
Jinghong Liang |
William Li
Searching for Compact Binaries in LIGO Data
Shannon Wang
Date Completed: September 2014
Report:
Paper
Recovering S5 Burst Injections
Alexander Cole
Date Completed: May 2014
Presentation:
Paper |
Slides
S5 Data Time Dependence of Duty Cycles and
Spacetime Detection Volumes
Gary LaMotte
Date Completed: April 2014
Presentation:
Slides
Recovering Hardware Injections in LIGO S5 Data
Ashley Disbrow
Date Completed: September 2013
Presentations:
Poster |
Slides
Share your own GWOSC data project
For help getting started on a GWOSC data project,
or if you have completed work that you would like to share, please
contact the GWOSC team.
Please remember to cite or acknowledge
GWOSC if using any products from this web site.
