Patrick Oppermann
University of Wisconsin-Milwaukee
H-index: 88
North America-United States
Professor Information
University | University of Wisconsin-Milwaukee |
---|---|
Position | Professor of Physics |
Citations(all) | 85017 |
Citations(since 2020) | 64532 |
Cited By | 63395 |
hIndex(all) | 88 |
hIndex(since 2020) | 77 |
i10Index(all) | 135 |
i10Index(since 2020) | 133 |
University Profile Page | University of Wisconsin-Milwaukee |
Top articles of Patrick Oppermann
GWTC-2: compact binary coalescences observed by LIGO and Virgo during the first half of the third observing run
We report on gravitational-wave discoveries from compact binary coalescences detected by Advanced LIGO and Advanced Virgo in the first half of the third observing run (O3a) between 1 April 2019 15∶ 00 UTC and 1 October 2019 15∶ 00 UTC. By imposing a false-alarm-rate threshold of two per year in each of the four search pipelines that constitute our search, we present 39 candidate gravitational-wave events. At this threshold, we expect a contamination fraction of less than 10%. Of these, 26 candidate events were reported previously in near-real time through gamma-ray coordinates network notices and circulars; 13 are reported here for the first time. The catalog contains events whose sources are black hole binary mergers up to a redshift of approximately 0.8, as well as events whose components cannot be unambiguously identified as black holes or neutron stars. For the latter group, we are unable to …
Authors
Richard Abbott,TD Abbott,S Abraham,F Acernese,K Ackley,A Adams,C Adams,RX Adhikari,VB Adya,Christoph Affeldt,M Agathos,K Agatsuma,N Aggarwal,Odylio Denys de Aguiar,L Aiello,A Ain,P Ajith,S Akcay,G Allen,A Allocca,PA Altin,A Amato,S Anand,A Ananyeva,SB Anderson,WG Anderson,SV Angelova,S Ansoldi,JM Antelis,S Antier,S Appert,K Arai,MC Araya,JS Areeda,M Arène,N Arnaud,SM Aronson,KG Arun,Y Asali,STEFANO Ascenzi,G Ashton,SM Aston,P Astone,F Aubin,P Aufmuth,K Aultoneal,C Austin,V Avendano,S Babak,F Badaracco,MKM Bader,S Bae,AM Baer,S Bagnasco,J Baird,M Ball,G Ballardin,SW Ballmer,A Bals,A Balsamo,G Baltus,S Banagiri,D Bankar,RS Bankar,JC Barayoga,C Barbieri,BC Barish,D Barker,P Barneo,S Barnum,F Barone,B Barr,L Barsotti,M Barsuglia,D Barta,J Bartlett,I Bartos,R Bassiri,A Basti,M Bawaj,JC Bayley,M Bazzan,BR Becher,B Bécsy,VM Bedakihale,M Bejger,I Belahcene,D Beniwal,MG Benjamin,TF Bennett,JD Bentley,F Bergamin,BK Berger,G Bergmann,S Bernuzzi,CPL Berry,D Bersanetti,A Bertolini,J Betzwieser,R Bhandare,AV Bhandari,D Bhattacharjee,J Bidler,IA Bilenko,G Billingsley,R Birney,O Birnholtz,S Biscans,M Bischi,S Biscoveanu,A Bisht,M Bitossi,M-A Bizouard,JK Blackburn,J Blackman,CD Blair,DG Blair,RM Blair,O Blanch,F Bobba,N Bode,M Boer,Y Boetzel,G Bogaert,M Boldrini,F Bondu,E Bonilla,R Bonnand,P Booker,BA Boom,R Bork,V Boschi,S Bose,V Bossilkov,V Boudart,Y Bouffanais,A Bozzi,C Bradaschia,PR Brady,A Bramley,M Branchesi,JE Brau,M Breschi,T Briant,JH Briggs,F Brighenti,A Brillet,M Brinkmann,P Brockill,AF Brooks
Journal
Physical Review X
Published Date
2021/6/9
GW190425: Observation of a compact binary coalescence with total mass∼ 3.4 M⊙
The first observation of gravitational waves from the inspiral of a binary neutron star (BNS) 200 system on 2017 August 17 (Abbott et al. 2017b) was a major landmark in multi-messenger astronomy and astrophysics. The gravitational-wave merger was accompanied by a gamma-ray burst (Abbott et al. 2017c; Goldstein et al. 2017; Savchenko et al. 2017); the subsequent world-wide follow-up of the signal by electromagnetic telescopes and satellite observatories identified the host galaxy and observed the kilonova and afterglow emission of the event over a period of hours to months (see, for example, Abbott et al. 2017d and references therein; Villar et al. 2017; Hajela et al. 2019; Troja et al. 2019).
Authors
BP Abbott,Robert Abbott,TD Abbott,S Abraham,Fausto Acernese,K Ackley,C Adams,RX Adhikari,VB Adya,Christoph Affeldt,M Agathos,K Agatsuma,N Aggarwal,OD Aguiar,L Aiello,A Ain,P Ajith,G Allen,A Allocca,MA Aloy,PA Altin,A Amato,S Anand,A Ananyeva,SB Anderson,WG Anderson,SV Angelova,S Antier,S Appert,K Arai,MC Araya,JS Areeda,M Arène,N Arnaud,SM Aronson,KG Arun,STEFANO Ascenzi,G Ashton,SM Aston,P Astone,F Aubin,P Aufmuth,K Aultoneal,C Austin,V Avendano,A Avila-Alvarez,S Babak,P Bacon,F Badaracco,MKM Bader,S Bae,J Baird,PT Baker,F Baldaccini,G Ballardin,SW Ballmer,A Bals,S Banagiri,JC Barayoga,C Barbieri,SE Barclay,BC Barish,D Barker,K Barkett,S Barnum,F Barone,B Barr,L Barsotti,M Barsuglia,D Barta,J Bartlett,I Bartos,R Bassiri,A Basti,M Bawaj,JC Bayley,AC Baylor,M Bazzan,B Bécsy,M Bejger,I Belahcene,AS Bell,D Beniwal,MG Benjamin,BK Berger,G Bergmann,S Bernuzzi,Christopher Philip Luke Berry,D Bersanetti,A Bertolini,J Betzwieser,R Bhandare,J Bidler,E Biggs,IA Bilenko,SA Bilgili,G Billingsley,R Birney,O Birnholtz,S Biscans,M Bischi,S Biscoveanu,A Bisht,M Bitossi,MA Bizouard,JK Blackburn,J Blackman,CD Blair,DG Blair,RM Blair,S Bloemen,F Bobba,N Bode,M Boer,Y Boetzel,G Bogaert,F Bondu,R Bonnand,P Booker,BA Boom,R Bork,V Boschi,S Bose,V Bossilkov,J Bosveld,Y Bouffanais,A Bozzi,C Bradaschia,PR Brady,A Bramley,M Branchesi,JE Brau,M Breschi,T Briant,JH Briggs,F Brighenti,A Brillet,M Brinkmann,P Brockill,AF Brooks,J Brooks,DD Brown,S Brunett,A Buikema,T Bulik,HJ Bulten,A Buonanno,D Buskulic,C Buy,RL Byer
Journal
The Astrophysical Journal
Published Date
2020/3/19
Prospects for observing and localizing gravitational-wave transients with Advanced LIGO, Advanced Virgo and KAGRA
We present our current best estimate of the plausible observing scenarios for the Advanced LIGO, Advanced Virgo and KAGRA gravitational-wave detectors over the next several years, with the intention of providing information to facilitate planning for multi-messenger astronomy with gravitational waves. We estimate the sensitivity of the network to transient gravitational-wave signals for the third (O3), fourth (O4) and fifth observing (O5) runs, including the planned upgrades of the Advanced LIGO and Advanced Virgo detectors. We study the capability of the network to determine the sky location of the source for gravitational-wave signals from the inspiral of binary systems of compact objects, that is binary neutron star, neutron star–black hole, and binary black hole systems. The ability to localize the sources is given as a sky-area probability, luminosity distance, and comoving volume. The median sky localization area (90% credible …
Authors
Benjamin P Abbott,R Abbott,TD Abbott,S Abraham,Fausto Acernese,K Ackley,C Adams,VB Adya,C Affeldt,M Agathos,K Agatsuma,N Aggarwal,OD Aguiar,L Aiello,A Ain,P Ajith,T Akutsu,G Allen,A Allocca,MA Aloy,PA Altin,A Amato,A Ananyeva,SB Anderson,WG Anderson,M Ando,SV Angelova,S Antier,S Appert,Koya Arai,Koya Arai,Y Arai,S Araki,A Araya,MC Araya,JS Areeda,M Arène,N Aritomi,N Arnaud,KG Arun,STEFANO Ascenzi,G Ashton,Y Aso,SM Aston,P Astone,F Aubin,P Aufmuth,K AultONeal,C Austin,V Avendano,A Avila-Alvarez,S Babak,P Bacon,F Badaracco,MKM Bader,SW Bae,YB Bae,L Baiotti,R Bajpai,PT Baker,F Baldaccini,G Ballardin,SW Ballmer,S Banagiri,JC Barayoga,SE Barclay,BC Barish,D Barker,K Barkett,S Barnum,F Barone,B Barr,L Barsotti,M Barsuglia,D Barta,J Bartlett,MA Barton,I Bartos,R Bassiri,A Basti,M Bawaj,JC Bayley,M Bazzan,B Bécsy,M Bejger,I Belahcene,AS Bell,D Beniwal,BK Berger,G Bergmann,S Bernuzzi,JJ Bero,CPL Berry,D Bersanetti,A Bertolini,J Betzwieser,R Bhandare,J Bidler,IA Bilenko,SA Bilgili,G Billingsley,J Birch,R Birney,O Birnholtz,S Biscans,S Biscoveanu,A Bisht,M Bitossi,MA Bizouard,JK Blackburn,CD Blair,DG Blair,RM Blair,S Bloemen,N Bode,M Boer,Y Boetzel,G Bogaert,F Bondu,E Bonilla,R Bonnand,P Booker,BA Boom,CD Booth,R Bork,V Boschi,S Bose,K Bossie,V Bossilkov,J Bosveld,Y Bouffanais,A Bozzi,C Bradaschia,PR Brady,A Bramley,M Branchesi,JE Brau,T Briant,JH Briggs,F Brighenti,A Brillet,M Brinkmann,V Brisson,P Brockill,AF Brooks,DA Brown,DD Brown,S Brunett,A Buikema,T Bulik
Published Date
2020/12
Professor FAQs
What is Patrick Oppermann's h-index at University of Wisconsin-Milwaukee?
The h-index of Patrick Oppermann has been 77 since 2020 and 88 in total.
What are Patrick Oppermann's top articles?
The articles with the titles of
GWTC-2: compact binary coalescences observed by LIGO and Virgo during the first half of the third observing run
GW190425: Observation of a compact binary coalescence with total mass∼ 3.4 M⊙
Prospects for observing and localizing gravitational-wave transients with Advanced LIGO, Advanced Virgo and KAGRA
are the top articles of Patrick Oppermann at University of Wisconsin-Milwaukee.
What is Patrick Oppermann's total number of citations?
Patrick Oppermann has 85,017 citations in total.