Title: Title: Searches for Gravitational Waves from Known Pulsars at Two Harmonics in the Second and Third Ligo-Virgo Observing Runs Authors: Abbott R., Abe H., Acernese F., Ackley K., Adhikari N., Adhikari R.X., Adkins V.K., Adya V.B., Affeldt C., Agarwal D., Agathos M., Agatsuma K., Aggarwal N., Aguiar O.D., Aiello L., Ain A., Ajith P., Akutsu T., Albanesi S., Alfaidi R.A., Allocca A., Altin P.A., Amato A., Anand C., Anand S., Ananyeva A., Anderson S.B., Anderson W.G., Ando M., Andrade T., Andres N., Andres-Carcasona M., Andric T., Angelova S.V., Ansoldi S., Antelis J.M., Antier S., Apostolatos T., Appavuravther E.Z., Appert S., Apple S.K., Arai K., Araya A., Araya M.C., Areeda J.S., Arene M., Aritomi N., Arnaud N., Arogeti M., Aronson S.M., Arun K.G., Asada H., Asali Y., Ashton G., Aso Y., Assiduo M., Assis de Souza Melo S., Aston S.M., Astone P., Aubin F., AultONeal K., Austin C., Babak S., Badaracco F., Bader M.K.M., Badger C., Bae S., Bae Y., Baer A.M., Bagnasco S., Bai Y., Bailes M., Baird J., Bajpai R., Baka T., Ball M., Ballardin G., Ballmer S.W., Balsamo A., Baltus G., Banagiri S., Banerjee B., Bankar D., Barayoga J.C., Barbieri C., Barish B.C., Barker D., Barneo P., Barone F., Barr B., Barsotti L., Barsuglia M., Barta D., Bartlett J., Barton M.A., Bartos I., Basak S., Bassiri R., Basti A., Bawaj M., Bayley J.C., Bazzan M., Becher B.R., Becsy B., Bedakihale V.M., Beirnaert F., Bejger M., Belahcene I., Benedetto V., Beniwal D., Benjamin M.G., Bennett T.F., Bentley J.D., BenYaala M., Bera S., Berbel M., Bergamin F., Berger B.K., Bernuzzi S., Bersanetti D., Bertolini A., Betzwieser J., Beveridge D., Bhandare R., Bhandari A.V., Bhardwaj U., Bhatt R., Bhattacharjee D., Bhaumik S., Bianchi A., Bilenko I.A., Billingsley G., Bini S., Birney R., Birnholtz O., Biscans S., Bischi M., Biscoveanu S., Bisht A., Biswas B., Bitossi M., Bizouard M.-A., Blackburn J.K., Blair C.D., Blair D.G., Blair R.M., Bobba F., Bode N., Boer M., Bogaert G., Boldrini M., Bolingbroke G.N., Bonavena L.D., Bondu F., Bonilla E., Bonnand R., Booker P., Boom B.A., Bork R., Boschi V., Bose N., Bose S., Bossilkov V., Boudart V., Bouffanais Y., Bozzi A., Bradaschia C., Brady P.R., Bramley A., Branch A., Branchesi M., Brau J.E., Breschi M., Briant T., Briggs J.H., Brillet A., Brinkmann M., Brockill P., Brooks A.F., Brooks J., Brown D.D., Brunett S., Bruno G., Bruntz R., Bryant J., Bucci F., Bulik T., Bulten H.J., Buonanno A., Burtnyk K., Buscicchio R., Buskulic D., Buy C., Byer R.L., Davies G.S.C., Cabras G., Cabrita R., Cadonati L., Caesar M., Cagnoli G., Cahillane C., Calderon Bustillo J.., Callaghan J.D., Callister T.A., Calloni E., Cameron J., Camp J.B., Canepa M., Canevarolo S., Cannavacciuolo M., Cannon K.C., Cao H., Cao Z., Capocasa E., Capote E., Carapella G., Carbognani F., Carlassara M., Carlin J.B., Carney M.F., Carpinelli M., Carrillo G., Carullo G., Carver T.L., Diaz J.C., Casentini C., Castaldi G., Caudill S., Cavaglia M., Cavalier F., Cavalieri R., Cella G., Cerda-Duran P., Cesarini E., Chaibi W., Chalathadka Subrahmanya S., Champion E., Chan C.-H., Chan C., Chan C.L., Chan K., Chan M., Chandra K., Chang I.P., Chanial P., Chao S., Chapman-Bird C., Charlton P., Chase E.A., Chassande-Mottin E., Chatterjee C., Chatterjee D., Chatterjee D., Chaturvedi M., Chaty S., Chen C., Chen D., Chen H.Y., Chen J., Chen K., Chen X., Chen Y.-B., Chen Y.-R., Chen Z., Cheng H., Cheong C.K., Cheung H.Y., Chia H.Y., Chiadini F., Chiang C.-Y., Chiarini G., Chierici R., Chincarini A., Chiofalo M.L., Chiummo A., Choudhary R.K., Choudhary S., Christensen N., Chu Q., Chu Y.-K., Chua S.S.Y., Chung K.W., Ciani G., Ciecielag P., Cieslar M., Cifaldi M., Ciobanu A.A., Ciolfi R., Cipriano F., Clara F., Clark J.A., Clearwater P., Clesse S., Cleva F., Coccia E., Codazzo E., Cohadon P.-F., Cohen D.E., Colleoni M., Collette C.G., Colombo A., Colpi M., Compton C.M., Jr. M.C., Conti L., Cooper S.J., Corban P., Corbitt T.R., Cordero-Carrion I., Corezzi S., Corley K.R., Cornish N.J., Corre D., Corsi A., Cortese S., Costa C.A., Cotesta R., Cottingham R., Coughlin M.W., Coulon J.-P., Countryman S.T., Cousins B., Couvares P., Coward D.M., Cowart M.J., Coyne D.C., Coyne R., Creighton J.D.E., Creighton T.D., Criswell A.W., Croquette M., Crowder S.G., Cudell J.R., Cullen T.J., Cumming A., Cummings R., Cunningham L., Cuoco E., Curylo M., Dabadie P., Canton T.D., Dall'Osso S., Dalya G., Dana A., D'Angelo B., Danilishin S., D'Antonio S., Danzmann K., Darsow-Fromm C., Dasgupta A., Datrier L.E.H., Datta S., Datta S., Dattilo V., Dave I., Davier M., Davis D., Davis M.C., Daw E.J., Dean R., DeBra D., Deenadayalan M., Degallaix J., Laurentis M.D., Del'eglise S., De Favero V., De Lillo F., Lillo N.D., Dell'Aquila D., Del Pozzo W.D., DeMarchi L.M., Matteis F.D., D'Emilio V., Demos N., Dent T., Depasse A., Pietri R.D., De Rosa R., De Rossi C., DeSalvo R., Simone R.D., Dhurandhar S., Diaz M.C., Didio N.A., Dietrich T., Di Fiore L., Di Fronzo C., Di Giorgio C., Di Giovanni F., Di Giovanni M., Di Girolamo T., Di Lieto A., Di Michele A., Ding B., Di Pace S., Di Palma I., Di Renzo F., Divakarla A.K., Dmitriev A., Doctor Z., Donahue L., D'Onofrio L., Donovan F., Dooley K.L., Doravari S., Drago M., Driggers J.C., Drori Y., Ducoin J.-G.., Dupej P., Dupletsa U., Durante O., D'Urso D., Duverne P.-A., Dwyer S.E., Eassa C., Easter P.J., Ebersold M., Eckhardt T., Eddolls G., Edelman B., Edo T.B., Edy O., Effler A., Eguchi S., Eichholz J., Eikenberry S.S., Eisenmann M., Eisenstein R.A., Ejlli A., Engelby E., Enomoto Y., Errico L., Essick R.C., Estelle H., Estevez D., Etienne Z., Etzel T., Evans M., Evans T.M., Evstafyeva T., Ewing B.E., Fabrizi F., Faedi F., Fafone V., Fair H., Fairhurst S., Fan P.C., Farah A.M., Farinon S., Farr B., Farr W.M., Fauchon-Jones E.J., Favaro G., Favata M., Fays M., Fazio M., Feicht J., Fejer M.M., Fenyvesi E., Ferguson D.L., Fernandez-Galiana A., Ferrante I., Ferreira T.A., Fidecaro F., Figura P., Fiori A., Fiori I., Fishbach M., Fisher R.P., Fittipaldi R., Fiumara V., Flaminio R., Floden E., Fong H.K., Font J.A., Fornal B., Forsyth P.W.F., Franke A., Frasca S., Frasconi F., Freed J.P., Frei Z., Freise A., Freitas O., Frey R., Fritschel P., Frolov V.V., Fronz'e G.G., Fujii Y., Fujikawa Y., Fujimoto Y., Fulda P., Fyffe M., Gabbard H.A., Gadre B.U., Gair J.R., Gais J., Galaudage S., Gamba R., Ganapathy D., Ganguly A., Gao D., Gaonkar S.G., Garaventa B., Garcia Nunez C., Garcia-Quiro C., Garufi F., Gateley B., Gayathri V., Ge G.-G., Gemme G., Gennai A., George J., Gerberding O., Gergely L., Gewecke P., Ghonge S., Ghosh A., Ghosh A., Ghosh S., Ghosh S., Ghosh T., Giacomazzo B., Giacoppo L., Giaime J.A., Giardina K.D., Gibson D.R., Gier C., Giesler M., Giri P., Gissi F., Gkaitatzis S., Glanzer J., Gleckl A.E., Godwin P., Goetz E., Goetz R., Gohlke N., Golomb J., Goncharov B., Gonzalez B., Gosselin M., Gouaty R., Gould D.W., Goyal S., Grace B., Grado A., Graham V., Granata M., Granata V., Grant A., Gras S., Grassia P., Gray C., Gray R., Greco G., Green A.C., Green R., Gretarsson A.M., Gretarsson E.M., Griffith D., Griffiths W.L., Griggs H.L., Grignani G., Grimaldi A., Grimes E., Grimm S.J., Grote H., Grunewald S., Gruning P., Gruson A.S., Guerra D., Guidi G.M., Guimaraes A.R., Guixe G., Gulati H.K., Gunny A.M., Guo H.-K., Guo Y., Gupta A., Gupta A., Gupta I.M., Gupta P., Gupta S.K., Gustafson R., Guzman F., Ha S., Hadiputrawan I.P.W., Haegel L., Haino S., Halim O., Hall E.D., Hamilton E.Z., Hammond G., Han W.-B.., Haney M., Hanks J., Hanna C., Hannam M.D., Hannuksela O., Hansen H., Hansen T.J., Hanson J., Harder T., Haris K., Harms J., Harry G.M., Harry I.W., Hartwig D., Hasegawa K., Haskell B., Haster C.-J., Hathaway J.S., Hattori K., Haughian K., Hayakawa H., Hayama K., Hayes F.J., Healy J., Heidmann A., Heidt A., Heintze M.C., Heinze J., Heinzel J., Heitmann H., Hellman F., Hello P., Helmling-Cornell A.F., Hemming G., Hendry M., Heng I.S., Hennes E., Hennig J., Hennig M.H., Henshaw C., Hernandez A.G., Hernandez Vivanco F., Heurs M., Hewitt A.L., Higginbotham S., Hild S., Hill P., Himemoto Y., Hines A.S., Hirata N., Hirose C., Ho T.-C., Ho W.C.G., Hochheim S., Hofman D., Hohmann J.N., Holcomb D.G., Holland N.A., Hollows I.J., Holmes Z.J., Holt K., Holz D.E., Hong Q., Hough J., Hourihane S., Howell E.J., Hoy C.G., Hoyland D., Hreibi A., Hsieh B.-H., Hsieh H.-F., Hsiung C., Hsu Y., Huang H.-Y., Huang P., Huang Y.-C., Huang Y.-J., Huang Y., Huang Y., Hubner M.T., Huddart A.D., Hughey B., Hui D.C.Y., Hui V., Husa S., Huttner S.H., Huxford R., Huynh-Dinh T., Ide S., Idzkowski B., Iess A., Inayoshi K., Inoue Y., Iosif P., Isi M., Isleif K., Ito K., Itoh Y., Iyer B.R., JaberianHamedan V., Jacqmin T., Jacquet P.-E., Jadhav S.J., Jadhav S.P., Jain T., James A.L., Jan A.Z., Jani K., Janquart J., Janssens K., Janthalur N.N., Jaranowski P., Jariwala D., Jaume R., Jenkins A.C., Jenner K., Jeon C., Jia W., Jiang J., Jin H.-B., Johns G.R., Johnston R., Jones A.W., Jones D.I., Jones P., Jones R., Joshi P., Ju L., Jue A., Jung P., Jung K., Junker J., Juste V., Kaihotsu K., Kajita T., Kakizaki M., Kalaghatgi C.V., Kalogera V., Kamai B., Kamiizumi M., Kanda N., Kandhasamy S., Kang G., Kanner J.B., Kao Y., Kapadia S.J., Kapasi D.P., Karathanasis C., Karki S., Kashyap R., Kasprzack M., Kastaun W., Kato T., Katsanevas S., Katsavounidis E., Katzman W., Kaur T., Kawabe K., Kawaguchi K., Kefelian F., Keitel D., Key J.S., Khadka S., Khalili F.Y., Khan S., Khanam T., Khazanov E.A., Khetan N., Khursheed M., Kijbunchoo N., Kim A., Kim C., Kim J.C., Kim J., Kim K., Kim W.S., Kim Y., Kimball C., Kimura N., Kinley-Hanlon M., Kirchhoff R., Kissel J.S., Klimenko S., Klinger T., Knee A.M., Knowles T.D., Knust N., Knyazev E., Kobayashi Y., Koch P., Koekoek G., Kohri K., Kokeyama K., Koley S., Kolitsidou P., Kolstein M., Komori K., Kondrashov V., Kong A.K.H., Kontos A., Koper N., Korobko M., Kovalam M., Koyama N., Kozak D.B., Kozakai C., Kringel V., Krishnendu N.V., Krolak A., Kuehn G., Kuei F., Kuijer P., Kulkarni S., Kumar A., Kumar P., Kumar R., Kumar R., Kume J., Kuns K., Kuromiya Y., Kuroyanagi S., Kwak K., Lacaille G., Lagabbe P., Laghi D., Lalande E., Lalleman M., Lam T.L., Lamberts A., Landry M., Lane B.B., Lang R.N., Lange J., Lantz B., La Rosa I., Lartaux-Vollard A., Lasky P.D., Laxen M., Lazzarini A., Lazzaro C., Leaci P., Leavey S., LeBohec S., Lecoeuche Y.K., Lee E., Lee H.M., Lee H.W., Lee K., Lee R., Legred I.N., Lehmann J., Lemaitre A., Lenti M., Leonardi M., Leonova E., Leroy N., Letendre N., Levesque C., Levin Y., Leviton J.N., Leyde K., Li A.K.Y., Li B., Li J., Li K.L., Li P., Li T.G.F., Li X., Lin C.-Y., Lin E.T., Lin F.-K., Lin F.-L., Lin H.L., Lin L.C.-C., Linde F., Linker S.D., Linley J.N., Littenberg T.B., Liu G.C., Liu J., Liu K., Liu X., Llamas F., Lo R.K.L., Lo T., London L.T., Longo A., Lopez D., Lopez Portilla M., Lorenzini M., Loriette V., Lormand M., Losurdo G., Lott T.P., Lough J.D., Lousto C.O., Lovelace G., Lucaccioni J.F., Luck H., Lumaca D., Lundgren A.P., Luo L.-W., Lynam J.E., Maarif M., Macas R., Machtinger J.B., MacInnis M., Macleod D.M., MacMillan I.A.O., Macquet A., Magana Hernandez I., Magazzu C., Magee R.M., Maggiore R., Magnozzi M., Mahesh S., Majorana E., Maksimovic I., Maliakal S., Malik A., Man N., Mandic V., Mangano V., Mansell G.L., Manske M., Mantovani M., Mapelli M., Marchesoni F., Mari D., Marin Pina D., Marion F., Mark Z., Marka S., Marka Z., Markakis C., Markosyan A.S., Markowitz A., Maros E., Marquina A., Marsat S., Martelli F., Martin I.W., Martin R.M., Martinez M., Martinez V.A., Martinez V., Martinovic K., Martynov D.V., Marx E.J., Masalehdan H., Mason K., Massera E., Masserot A., Masso-Reid M., Mastrogiovanni S., Matas A., Mateu-Lucena M., Matichard F., Matiushechkina M., Mavalvala N., McCann J.J., McCarthy R., McClelland D.E., McClincy P.K., McCormick S., McCuller L., McGhee G.I., McGuire S.C., McIsaac C., McIver J., McRae T., McWilliams S.T., Meacher D., Mehmet M., Mehta A.K., Meijer Q., Melatos A., Melchor D.A., Mendell G., Menendez-Vazquez A., Menoni C.S., Mercer R.A., Mereni L., Merfeld K., Merilh E.L., Merritt J.D., Merzougui M., Meshkov S., Messenger C., Messick C., Meyers P.M., Meylahn F., Mhaske A., Miani A., Miao H., Michaloliakos I., Michel C., Michimura Y., Middleton H., Mihaylov D.P., Milano L., Miller A.L., Miller A., Miller B., Millhouse M., Mills J.C., Milotti E., Minenkov Y., Mio N., Mir L.M., Miravet-Tenes M., Mishkin A., Mishra C., Mishra T., Mistry T., Mitra S., Mitrofanov V.P., Mitselmakher G., Mittleman R., Miyakawa O., Miyo K., Miyoki S., Mo G., Modafferi L.M., Moguel E., Mogushi K., Mohapatra S.R.P., Mohite S.R., Molina I., Molina-Ruiz M., Mondin M., Montani M., Moore C.J., Moragues J., Moraru D., Morawski F., More A., Moreno C., Moreno G., Mori Y., Morisaki S., Morisue N., Moriwaki Y., Mours B., Mow-Lowry C.M., Mozzon S., Muciaccia F., Mukherjee A., Mukherjee D., Mukherjee S., Mukherjee S., Mukherjee S., Mukund N., Mullavey A., Munch J., Muniz E.A., Murray P.G., Musenich R., Muusse S., Nadji S.L., Nagano K., Nagar A., Nakamura K., Nakano H., Nakano M., Nakayama Y., Napolano V., Nardecchia I., Narikawa T., Narola H., Naticchioni L., Nayak B., Nayak R.K., Neil B.F., Neilson J., Nelson A., Nelson T.J.N., Nery M., Neubauer P., Neunzert A., Ng K.Y., Ng S.W.S., Nguyen C., Nguyen P., Nguyen T., Quynh L.N., Ni J., Ni W.-T., Nichols S.A., Nishimoto T., Nishizawa A., Nissanke S., Nitoglia E., Nocera F., Norman M., North C., Nozaki S., Nurbek G., Nuttall L.K., Obayashi Y., Oberling J., O'Brien B.D., O'Dell J., Oelker E., Ogaki W., Oganesyan G., Oh J.J., Oh K., Oh S.H., Ohashi M., Ohashi T., Ohkawa M., Ohme F., Ohta H., Okada M.A., Okutani Y., Olivetto C., Oohara K., Oram R., O'Reilly B., Ormiston R.G., Ormsby N.D., O'Shaughnessy R., O'Shea E., Oshino S., Ossokine S., Osthelder C., Otabe S., Ottaway D.J., Overmier H., Pace A.E., Pagano G., Pagano R., Page M.A., Pagliaroli G., Pai A., Pai S.A., Pal S., Palamos J.R., Palashov O., Palomba C., Pan H., Pan K.-C., Panda P.K., Pang P.T.H., Pankow C., Pannarale F., Pant B.C., Panther F.H., Paoletti F., Paoli A., Paolone A., Pappas G., Parisi A., Park H., Park J., Parker W., Pascucci D., Pasqualetti A., Passaquieti R., Passuello D., Patel M., Pathak M., Patricelli B., Patron A.S., Paul S., Payne E., Pedraza M., Pedurand R., Pegoraro M., Pele A., Pena Arellano F.E., Penano S., Penn S., Perego A., Pereira A., Pereira T., Perez C.J., P'erigois C., Perkins C.C., Perreca A., Perries S., Pesios D., Petermann J., Petterson D., Pfeiffer H.P., Pham H., Pham K.A., Phukon K.S., Phurailatpam H., Piccinni O.J., Pichot M., Piendibene M., Piergiovanni F., Pierini L., Pierro V., Pillant G., Pillas M., Pilo F., Pinard L., Pineda-Bosque C., Pinto I.M., Pinto M., Piotrzkowski B.J., Piotrzkowski K., Pirello M., Pitkin M.D., Placidi A., Placidi E., Planas M.L., Plastino W., Pluchar C., Poggiani R., Polini E., Pong D.Y.T., Ponrathnam S., Porter E.K., Poulton R., Poverman A., Powell J., Pracchia M., Pradier T., Prajapati A.K., Prasai K., Prasanna R., Pratten G., Principe M., Prodi G.A., Prokhorov L., Prosposito P., Prudenzi L., Puecher A., Punturo M., Puosi F., Puppo P., Purrer M., Qi H., Quartey N., Quetschke V., Quinonez P.J., Quitzow-James R., Raab F.J., Raaijmakers G., Radkins H., Radulesco N., Raffai P., Rail S.X., Raja S., Rajan C., Ramirez K.E., Ramirez T.D., Ramos-Buades A., Rana J., Rapagnani P., Ray A., Raymond V., Raza N., Razzano M., Read J., Rees L.A., Regimbau T., Rei L., Reid S., Reid S.W., Reitze D.H., Relton P., Renzini A., Rettegno P., Revenu B., Reza A., Rezac M., Ricci F., Richards D., Richardson J.W., Richardson L., Riemenschneider G., Riles K., Rinaldi S., Rink K., Robertson N.A., Robie R., Robinet F., Rocchi A., Rodriguez S., Rolland L., Rollins J.G., Romanelli M., Romano R., Romel C.L., Romero A., Romero-Shaw I.M., Romie J.H., Ronchini S., Rosa L., Rose C.A., Rosinska D., Ross M.P., Rowan S., Rowlinson S.J., Roy S., Roy S., Roy S., Rozza D., Ruggi P., Ruiz-Rocha K., Ryan K., Sachdev S., Sadecki T., Sadiq J., Saha S., Saito Y., Sakai K., Sakellariadou M., Sakon S., Salafia O.S., Salces-Carcoba F., Salconi L., Saleem M., Salemi F., Samajdar A., Sanchez E.J., Sanchez J.H., Sanchez L.E., Sanchis-Gual N., Sanders J.R., Sanuy A., Saravanan T.R., Sarin N., Sassolas B., Satari H., Sauter O., Savage R.L., Savant V., Sawada T., Sawant H.L., Sayah S., Schaetzl D., Scheel M., Scheuer J., Schiworski M.G., Schmidt P., Schmidt S., Schnabel R., Schneewind M., Schofield R.M.S., Schonbeck A., Schulte B.W., Schutz B.F., Schwartz E., Scott J., Scott S.M., Seglar-Arroyo M., Sekiguchi Y., Sellers D., Sengupta A.S., Sentenac D., Seo E.G., Sequino V., Sergeev A., Setyawati Y., Shaffer T., Shahriar M.S., Shaikh M.A., Shams B., Shao L., Sharma A., Sharma P., Shawhan P., Shcheblanov N.S., Sheela A., Shikano Y., Shikauchi M., Shimizu H., Shimode K., Shinkai H., Shishido T., Shoda A., Shoemaker D.H., Shoemaker D.M., ShyamSundar S., Sieniawska M., Sigg D., Silenzi L., Singer L.P., Singh D., Singh M.K., Singh N., Singha A., Sintes A.M., Sipala V., Skliris V., Slagmolen B.J.J., Slaven-Blair T.J., Smetana J., Smith J.R., Smith L., Smith R.J.E., Soldateschi J., Somala S.N., Somiya K., Song I., Soni K., Soni S., Sordini V., Sorrentino F., Sorrentino N., Soulard R., Souradeep T., Sowell E., Spagnuolo V., Spencer A.P., Spera M., Spinicelli P., Srivastava A.K., Srivastava V., Staats K., Stachie C., Stachurski F., Steer D.A., Steinlechner J., Steinlechner S., Stergioulas N., Stops D.J., Stover M., Strain K.A., Strang L.C., Stratta G., Strong M.D., Strunk A., Sturani R., Stuver A.L., Suchenek M., Sudhagar S., Sudhir V., Sugimoto R., Suh H.G., Sullivan A.G., Summerscales T.Z., Sun L., Sunil S., Sur A., Suresh J., Sutton P.J., Suzuki T., Suzuki T., Suzuki T., Swinkels B.L., Szczepa'nczyk M.J., Szewczyk P., Tacca M., Tagoshi H., Tait S.C., Takahashi H., Takahashi R., Takano S., Takeda H., Takeda M., Talbot C.J., Talbot C., Tanaka K., Tanaka T., Tanaka T., Tanasijczuk A.J., Tanioka S., Tanner D.B., Tao D., Tao L., Tapia R.D., Tapia San Martin E.N., Taranto C., Taruya A., Tasson J.D., Tenorio R., Terhune J.E.S., Terkowski L., Thirugnanasambandam M.P., Thomas M., Thomas P., Thompson E.E., Thompson J.E., Thondapu S.R., Thorne K.A., Thrane E., Tiwari S., Tiwari S., Tiwari V., Toivonen A.M., Tolley A.E., Tomaru T., Tomura T., Tonelli M., Tornasi Z., Torres-Forne A., Torrie C.I., Melo I.T.e., Toyra D., Trapananti A., Travasso F., Traylor G., Trevor M., Tringali M.C., Tripathee A., Troiano L., Trovato A., Trozzo L., Trudeau R.J., Tsai D., Tsang K.W., Tsang T., Tsao J.-S., Tse M., Tso R., Tsuchida S., Tsukada L., Tsuna D., Tsutsui T., Turbang K., Turconi M., Tuyenbayev D., Ubhi A.S., Uchikata N., Uchiyama T., Udall R.P., Ueda A., Uehara T., Ueno K., Ueshima G., Unnikrishnan C.S., Urban A.L., Ushiba T., Utina A., Vajente G., Vajpeyi A., Valdes G., Valentini M., Valsan V., van Bakel N., van Beuzekom M., van Dael M., van den Brand J.F.J., Van Den Broeck C., Vander-Hyde D.C., van Haevermaet H., van Heijningen J.V., van Putten M.H.P.M., van Remortel N., Vardaro M., Vargas A.F., Varma V., Vasuth M., Vecchio A., Vedovato G., Veitch J., Veitch P.J., Venneberg J., Venugopalan G., Verkindt D., Verma P., Verma Y., Vermeulen S.M., Veske D., Vetrano F., Vicere A., Vidyant S., Viets A.D., Vijaykumar A., Villa-Ortega V., Vinet J.-Y., Virtuoso A., Vitale S., Vocca H., von Reis E.R.G., von Wrangel J.S.A., Vorvick C., Vyatchanin S.P., Wade L.E., Wade M., Wagner K.J., Walet R.C., Walker M., Wallace G.S., Wallace L., Wang J., Wang J.Z., Wang W.H., Ward R.L., Warner J., Was M., Washimi T., Washington N.Y., Watchi J., Weaver B., Weaving C.R., Webster S.A., Weinert M., Weinstein A.J., Weiss R., Weller C.M., Weller R.A., Wellmann F., Wen L., Wessels P , Wette K., Whelan J.T., White D.D., Whiting B.F., Whittle C., Wilken D., Williams D., Williams M.J., Williamson A.R., Willis J.L., Willke B., Wilson D.J., Wipf C.C., Wlodarczyk T., Woan G., Woehler J., Wofford J.K., Wong D., Wong I.C.F., Wright M., Wu C., Wu D.S., Wu H., Wysocki D.M., Xiao L., Yamada T., Yamamoto H., Yamamoto K., Yamamoto T., Yamashita K., Yamazaki R., Yang F.W., Yang K.Z., Yang L., Yang Y.-C., Yang Y., Yang Y., Yap M.J., Yeeles D.W., Yeh S.-W., Yelikar A.B., Ying M., Yokoyama J., Yokozawa T., Yoo J., Yoshioka T., Yu H., Yu H., Yuzurihara H., Zadro.zny A., Zanolin M., Zeidler S., Zelenova T., Zendri J.-P., Zevin M., Zhan M., Zhang H., Zhang J., Zhang L., Zhang R., Zhang T., Zhang Y., Zhao C., Zhao G., Zhao Y., Zhao Y., Zhou R., Zhou Z., Zhu X.J., Zhu Z.-H., Zucker M.E., Zweizig J., Antonopoulou D., Arzoumanian Z., Basu A., Bogdanov S., Cognard I., Crowter K., Enoto T., Fonseca E., Flynn C.M.L., Good D.C., Guillemot L., Guillot S., Harding A.K., Keith M.J., Kuiper L., Lower M.E., Lyne A.G., McKee J.W., Meyers B.W., Palfreyman J.L., Shannon R.M., Shaw B., Stairs I.H., Stappers B.W., Tan C.M., Theureau G., Weltevrede P. Table: Upper limits of gravitational wave amplitude and other derived quantities (Tables 3 and 4) =============================================================================== Byte-by-byte Description of file: resultstable.txt ------------------------------------------------------------------------------- Bytes Format Units Label Explanations ------------------------------------------------------------------------------- 1- 11 A11 --- Name Pulsar J2000 coordinate name 13- 17 F5.1 Hz Freq Pulsar rotation frequency 19- 26 E8.2 s.s-1 Pdot ?="" Intrinsic rotational period derivative (1) 28- 29 A2 --- PdotRef Reference note for the period derivative value (2) 31- 35 F5.2 kpc Dist ?="" Distance to the pulsar 37- 38 A2 --- DistRef Reference note for the pulsar distance (3) 40- 47 E8.2 --- H0SD ?="" Spin-down limit of gravitational wave amplitude 49- 56 E8.2 --- C21ULBayes ?="" Observed 95% credible upper limit on amplitude from the l=2, m=1 mode using the Bayesian analysis (4) 58- 65 E8.2 --- C21ULResBayes ?="" Observed 95% credible upper limit on amplitude from the l=2, m=1 mode using restricted orientation priors using the Bayesian analysis (4) 67- 74 E8.2 --- C21ULFStat ?="" Observed 95% confidence upper limit on amplitude from the l=2, m=1 mode using the F-statistic analysis (4) 76- 83 E8.2 --- C21ULResGStat ?="" Observed 95% confidence upper limit on amplitude from the l=2, m=1 mode using restricted orientation priors using the G-statictic analysis (4) 85- 92 E8.2 --- C21UL5nVec ?="" Observed 95% confidence upper limit on amplitude from the l=2, m=1 mode using the 5n-vector analysis 94-101 E8.2 --- C21ULRes5nVec ?="" Observed 95% confidence upper limit on amplitude from the l=2, m=1 mode using restricted orientation priors using the 5n-vector analysis 103-110 E8.2 --- C22ULBayes ?="" Observed 95% credible upper limit on amplitude from the l=m=2 mode using the Bayesian analysis (4) 112-119 E8.2 --- C22ULResBayes ?="" Observed 95% credible upper limit on amplitude from the l=m=2 mode using restricted orientation priors using the Bayesian analysis (4) 121-128 E8.2 --- C22ULFStat ?="" Observed 95% confidence upper limit on amplitude from the l=m=2 mode using the F-statistic analysis (4) 130-137 E8.2 --- C22ULResGStat ?="" Observed 95% confidence upper limit on amplitude from the l=m=2 mode using restricted orientation priors using the G-statistic analysis (4) 139-146 E8.2 --- H0ULBayes ?="" Observed 95% credible upper limit on amplitude from the l=m=2 mode using the Bayesian analysis (5) 148-155 E8.2 --- H0ULResBayes ?="" Observed 95% credible upper limit on amplitude from the l=m=2 mode using restricted orientation priors using the Bayesian analysis (5) 157-164 E8.2 --- H0ULFStat ?="" Observed 95% confidence upper limit on amplitude from the l=m=2 mode using the F-statistic analysis (5) 166-173 E8.2 --- H0ULResGStat ?="" Observed 95% confidence upper limit on amplitude from the l=m=2 mode using restricted orientation priors using the G-statistic analysis (5) 175-182 E8.2 --- H0UL5nVec ?="" Observed 95% confidence upper limit on amplitude from the l=m=2 mode using the 5n-vector analysis (5) 184-191 E8.2 --- H0ULRes5nVec ?="" Observed 95% confidence upper limit on amplitude from the l=m=2 mode using restricted orientation priors using the 5n-vector analysis (5) 193-200 E8.2 kg.m2 Q22ULBayes ?="" Derived 95% credible upper limit on the l=m=2 mass quadrupole moment using the Bayesian analysis (5) 202-209 E8.2 kg.m2 Q22ULResBayes ?="" Derived 95% credible upper limit on the l=m=2 mass quadrupole moment using restricted orientation priors using the Bayesian analysis (5) 211-218 E8.2 kg.m2 Q22ULFStat ?="" Derived 95% confidence upper limit on the l=m=2 mass quadrupole moment using the F-statistic analysis (5) 220-227 E8.2 kg.m2 Q22ULResGStat ?="" Derived 95% confidence upper limit on the l=m=2 mass quadrupole moment using restricted orientation priors using the G-statistic analysis (5) 229-236 E8.2 kg.m2 Q22UL5nVec ?="" Derived 95% confidence upper limit on the l=m=2 mass quadrupole moment using the 5n-vector analysis (5) 238-245 E8.2 kg.m2 Q22ULRes5nVec ?="" Derived 95% confidence upper limit on the l=m=2 mass quadrupole moment using restricted orientation priors using the 5n-vector analysis (5) 247-254 E8.2 --- ELLULBayes ?="" Derived 95% credible upper limit on the fiducial ellipticity using the Bayesian analysis (5) 256-263 E8.2 --- ELLULResBayes ?="" Derived 95% credible upper limit on the fiducial ellipticity using restricted orientation priors using the Bayesian analysis (5) 265-272 E8.2 --- ELLULFStat ?="" Derived 95% cconfidence upper limit on the fiducial ellipticity using the F-statistic analysis (5) 274-281 E8.2 --- ELLULResGStat ?="" Derived 95% confidence upper limit on the fiducial ellipticity using restricted orientation priors using the G-statictic analysis (5) 283-290 E8.2 --- ELLUL5nVec ?="" Derived 95% cconfidence upper limit on the fiducial ellipticity using the 5n-vector analysis (5) 292-299 E8.2 --- ELLULRes5nVec ?="" Derived 95% confidence upper limit on the fiducial ellipticity using restricted orientation priors using the 5n-vector analysis (5) 301-308 F8.3 --- SDRatioBayes ?="" Ratio H0UL_BAYES/H0SD (5) 310-317 F8.3 --- SDRatioResBayes ?="" Ratio H0ULResBayes/H0SD (5) 319-326 F8.3 --- SDRatioFStat ?="" Ratio H0ULFStat/H0SD (5) 328-335 F8.3 --- SDRatioResGStat ?="" Ratio H0ULResGStat/H0SD (5) 337-344 F8.3 --- SDRatio5nVec ?="" Ratio H0UL5nVec/H0SD (5) 346-353 F8.3 --- SDRatioRes5nVec ?="" Ratio H0ULRes5nVec/H0SD (5) 355-358 F4.1 --- OddsL2M12 ?="" base-10 logarithm of odds for coherent signal versus incoherent signal for the Bayesian analysis (4) 360-363 F4.1 --- OddsL2M12Res ?="" base-10 logarithm of odds for coherent signal versus incoherent signal using restricted orientation priors for the Bayesian analysis (4) 365-368 F4.1 --- OddsL2M2 ?="" base-10 logarithm of odds for coherent signal versus incoherent signal for the Bayesian analysis (5) 370-373 F4.1 --- OddsL2M2Res ?="" base-10 logarithm of odds for coherent signal versus incoherent signal using restricted orientation priors for the Bayesian analysis (5) 375-379 F5.2 --- PValueL2M2 ?="" p-value for the null hypothesis in the 5n-vector analysis for the l=m=2 mode 381-385 F5.2 --- PValueL2M2RES ?="" p-value for the null hypothesis in the 5n-vector analysis for the l=m=2 mode 387-391 F5.2 --- PValueL2M1 ?="" p-value for the null hypothesis in the 5n-vector analysis for the l=2, m=1 mode 393-397 F5.2 --- PValueL2M1RES ?="" p-value for the null hypothesis in the 5n-vector analysis for the l=2, m=1 mode 399-403 F5.2 --- FAPL2M2 ?="" false alarm probability in the F-statistic analysis for the l=2, m=2 mode 405-409 F5.2 --- FAPL2M2Res ?="" false alarm probability in the G-statistic analysis for the l=2, m=2 mode 411-415 F5.2 --- FAPL2M1 ?="" false alarm probability in the F-statistic analysis for the l=2, m=1 mode 417-421 F5.2 --- FAPL2M1Res ?="" false alarm probability in the G-statistic analysis for the l=2, m=1 mode 423-434 A12 --- Observatory Reference note for which observatory provided the ephemeris data used (6) (7) ------------------------------------------------------------------------------- Note (1): In cases where the intrinsic period derivative exists in the literature, with an associated error, those values are shown. Otherwise, if a transverse velocity can be calculated from proper motion values within the ATNF Pulsar Catalogue and a distance is known, then they are used to correct for the Shklovskii and Galactic rotation effects on the observed period derivative to derive the intrinsic value shown. In cases where this instrinsic period derivate is negative no value is give and no spin-down limit is calculated. For some pulsars within globular clusters the period derivative is a proxy value calculated by assuming that the star has a characteristic age of 10+9 years and a braking index of n=5. For other pulsars the observed period derivative is given. Note (2): The provided period derivatives are based on the following information -- A - The period derivative has been corrected to account for the relative motion between the pulsar and observer. B - The corrected pulsar period derivative is negative, so no value is given and no spin-down limit has been calculated. C - This is a globular cluster pulsar for which a proxy period derivative has been derived assuming a characteristic age of 1 billion years and a braking index of n = 5. Note (3): The references for the pulsar distances -- a - 2018ApJS..235...37A b - 2017ApJ...835...29Y c - 2014MNRAS.444.1859V d - 2013Sci...340..448A e - 2016MNRAS.455.1751R f - 2021MNRAS.507.2137R g - 2016MNRAS.455.3806B h - 2021ApJ...915L..12F i - 2016MNRAS.458.3341D j - 2012ApJ...755...39V k - 2021arXiv210803946L l - 2006MNRAS.369..416R m - 2011ApJ...732L..11N n - 2017ApJ...847...25S o - 2013ApJ...778..120H p - 2015MNRAS.446.4019B q - 2016ApJ...818...92M r - 2010arXiv1012.3224H s - 2014ApJ...787...82F t - 2015ApJ...799..165B u - 2018ApJ...855..122V v - 2012MNRAS.423.3328F w - 2013MNRAS.430..571E x - 2014MNRAS.443.2183F y - 2021ApJ...917...67C z - 2001AJ....121..916T aa - 2009MNRAS.400..168L bb - 2011ApJ...729L..16G cc - 2014ApJ...784..154B dd - 2016A&A...587A.109G ee - 2013ApJ...770..145D ff - 2001ApJ...547..323H gg - 2018MNRAS.475..469S Note (4): These results have been produced using a coherent analysis including both the l=2, m=1 mode and the l=m=2 mode. Note (5): These results have been produced using an analysis only including the l=m=2 mode. Note (6): The references for the observatories for each pulsar -- CHIME - $\alpha$ Hobart - $\beta$ Jodrell - $\gamma$ MeerKAT - $\delta$ Nancay - $\epsilon$ NICER - $\zeta$ UTMOST - $\eta$ Note (7): * - The pulsar J0537-6910 was not analysed in this study but is included for completion. The values listed here are taken from 2021ApJ...913L..27A. ------------------------------------------------------------------------------- J0023+0923 327.8 9.99E-21 A 1.11 a 1.31E-27 9.58E-27 8.48E-27 1.74E-26 3.28E+30 4.24E-08 13.217 -3.2 -1.0 $\epsilon$ J0030+0451 205.5 1.01E-20 A 0.33 a 3.58E-27 8.72E-27 3.15E-27 6.54E-27 9.19E+29 1.19E-08 1.828 -4.4 -2.3 $\epsilon$ J0034-0534 532.7 4.18E-21 A 1.35 b 8.92E-28 1.12E-26 5.17E-27 1.06E-26 9.20E+29 1.19E-08 11.880 -4.7 -2.4 $\epsilon$ J0101-6422 388.6 3.75E-21 A 1.00 b 9.71E-28 1.02E-26 3.17E-27 7.40E-27 8.97E+29 1.16E-08 7.621 -4.7 -2.5 $\delta$ J0102+4839 337.4 1.14E-20 2.31 b 6.85E-28 1.31E-26 6.34E-27 1.27E-26 4.72E+30 6.11E-08 18.584 -3.7 -1.6 $\epsilon$ J0117+5914 9.9 5.85E-15 A 1.77 b 1.10E-25 1.74E-25 5.77E+34 7.46E-04 1.584 -2.5 $\alpha$ J0125-2327 272.1 1.84E-20 0.92 b 1.97E-27 1.19E-26 4.16E-27 8.52E-27 1.93E+30 2.50E-08 4.330 -4.1 -2.1 $\epsilon$ J0154+1833 422.9 1.10E-21 A 1.62 b 3.39E-28 1.61E-26 3.63E-27 9.74E-27 1.61E+30 2.09E-08 28.778 -4.3 -2.5 $\epsilon$ J0218+4232 430.5 7.65E-20 A 3.15 c 1.47E-27 1.22E-26 4.01E-27 8.94E-27 2.78E+30 3.59E-08 6.086 -4.5 -2.5 $\epsilon$ J0340+4130 303.1 6.67E-21 A 1.60 b 7.15E-28 1.75E-26 3.16E-27 6.80E-27 2.17E+30 2.81E-08 9.512 -3.7 -2.4 $\epsilon$ J0348+0432 25.6 2.30E-19 A 2.10 d 9.31E-28 9.63E-26 6.96E-27 1.38E-26 8.13E+32 1.05E-05 14.860 -4.5 -2.4 $\epsilon$ J0406+3039 383.3 8.31E-21 1.62E-26 4.23E-27 8.49E-27 -3.9 -2.4 $\epsilon$ J0407+1607 38.9 7.90E-20 1.34 b 1.06E-27 1.94E-26 3.05E-27 6.73E-27 1.09E+32 1.41E-06 6.381 -5.4 -2.6 $\epsilon$ J0437-4715 173.7 1.38E-20 A 0.16 e 7.96E-27 1.25E-26 2.30E-26 3.84E-27 3.50E-27 6.90E-27 8.90E-27 6.55E+29 8.45E+29 8.48E-09 1.09E-08 0.867 1.118 -4.4 -2.8 0.29 0.08 $\delta$ J0453+1559 21.8 1.81E-19 A 0.52 b 3.07E-27 1.47E-25 5.35E-27 1.10E-26 2.20E+32 2.85E-06 3.589 -5.5 -3.0 $\epsilon$ J0509+0856 246.6 3.82E-21 A 0.82 b 9.57E-28 1.31E-26 3.07E-27 8.28E-27 2.03E+30 2.63E-08 8.648 -4.2 -2.2 $\epsilon$ J0509+3801 13.1 7.93E-18 1.56 b 5.26E-27 2.49E-24 1.99E-26 4.39E-26 7.33E+33 9.49E-05 8.346 -9.2 -2.7 $\epsilon$ J0534+2200 29.6 4.21E-13 A 2.00 1.42E-24 7.93E-26 6.25E-26 7.00E-26 3.10E-26 1.40E-25 1.30E-25 6.53E-27 6.06E-27 8.80E-27 5.50E-27 1.34E-26 1.21E-26 1.70E-26 1.00E-26 9.00E-27 8.70E-27 5.60E+32 5.04E+32 7.08E+32 4.17E+32 3.75E+32 3.62E+32 7.24E-06 6.53E-06 9.17E-06 5.39E-06 4.85E-06 4.69E-06 0.009 0.009 0.012 0.007 0.006 0.006 -4.8 -4.9 -2.6 -2.7 0.73 0.73 0.02 0.02 0.56 0.24 0.65 0.52 $\gamma$ J0537-6910 61.9 5.20E-14 49.6 3.00E-26 2.20E-26 1.80E-26 5.60E-27 5.00E-27 1.10E-26 1.00E-26 3.40E-05 3.10E-05 0.370 0.330 -8.3 -8.3 -4.3 -4.5 J0557+1550 391.2 7.35E-21 1.83 b 7.46E-28 8.99E-27 5.06E-27 1.07E-26 2.33E+30 3.02E-08 14.296 -4.5 -2.2 $\epsilon$ J0557-2948 22.9 7.30E-20 4.27 b 2.44E-28 1.35E-25 5.91E-27 1.47E-26 2.18E+33 2.82E-05 60.020 -5.2 -2.7 $\delta$ J0609+2130 18.0 2.35E-19 0.57 b 2.89E-27 5.68E-25 8.35E-27 1.85E-26 6.00E+32 7.77E-06 6.394 -8.7 -2.9 $\alpha$ J0610-2100 259.0 1.10E-21 A 3.26 b 1.32E-28 1.46E-26 4.33E-27 9.39E-27 8.34E+30 1.08E-07 71.025 -3.8 -2.1 $\epsilon$ J0613-0200 326.6 8.29E-21 A 0.60 f 2.21E-27 1.25E-26 7.51E-27 1.64E-26 1.68E+30 2.18E-08 7.396 -3.2 -1.2 $\epsilon$ J0614-3329 317.6 1.76E-20 A 0.63 g 3.03E-27 8.51E-27 4.20E-27 8.31E-27 9.49E+29 1.23E-08 2.747 -4.5 -2.3 $\epsilon$ J0621+1002 34.7 4.63E-20 A 0.42 b 2.43E-27 3.43E-26 3.68E-27 7.74E-27 4.95E+31 6.40E-07 3.183 -5.3 -2.6 $\epsilon$ J0636+5129 348.6 3.38E-21 A 0.21 b 4.17E-27 9.74E-27 3.78E-27 7.84E-27 2.48E+29 3.20E-09 1.881 -5.2 -2.5 $\epsilon$ J0636-3044 253.4 2.13E-20 0.71 b 2.62E-27 7.48E-27 3.78E-27 7.47E-27 1.52E+30 1.97E-08 2.848 -4.5 -2.3 $\delta$ J0645+5158 112.9 2.70E-21 A 1.20 a 3.71E-28 7.56E-27 3.07E-27 6.63E-27 1.14E+31 1.48E-07 17.890 -4.4 -2.1 $\epsilon$ J0709+0458 29.0 3.79E-19 A 1.20 b 2.22E-27 4.18E-26 4.77E-27 1.26E-26 3.29E+32 4.25E-06 5.674 -5.7 -2.5 $\epsilon$ J0711-6830 182.1 1.43E-20 A 0.11 b 1.23E-26 1.58E-26 1.90E-26 9.80E-27 2.44E-27 5.20E-27 6.96E-27 9.90E-27 5.00E-27 4.07E+29 5.78E+29 2.92E+29 5.26E-09 7.48E-09 3.78E-09 0.567 0.806 0.407 -3.9 -2.3 0.96 0.90 0.34 0.17 $\delta$ J0721-2038 64.3 4.40E-20 2.68 b 5.06E-28 1.25E-26 2.57E-27 6.38E-27 7.55E+31 9.77E-07 12.602 -4.7 -2.2 $\epsilon$ J0732+2314 244.5 6.02E-21 1.15 b 8.50E-28 7.94E-27 2.81E-27 8.29E-27 2.91E+30 3.77E-08 9.745 -4.5 -2.2 $\epsilon$ J0740+6620 346.5 6.44E-21 A 1.14 h 1.06E-27 9.52E-27 2.82E-27 6.26E-27 1.09E+30 1.41E-08 5.925 -5.5 -2.7 $\epsilon$ J0751+1807 287.5 6.73E-21 A 0.60 i 1.87E-27 1.08E-26 5.04E-27 1.01E-26 1.35E+30 1.74E-08 5.428 -4.1 -2.1 $\epsilon$ J0824+0028 101.4 1.43E-19 A 1.69 b 1.82E-27 8.65E-27 3.51E-27 7.65E-27 2.30E+31 2.97E-07 4.214 -4.2 -2.0 $\epsilon$ J0835-4510 11.2 1.25E-13 A 0.28 j 3.41E-24 1.61E-23 8.30E-24 1.70E-23 1.30E-23 1.10E-23 1.40E-23 8.83E-26 8.63E-26 1.00E-25 1.60E-26 1.77E-25 1.73E-25 2.00E-25 6.70E-26 1.80E-25 1.10E-25 7.21E+33 7.05E+33 8.16E+33 2.73E+33 7.35E+33 4.49E+33 9.33E-05 9.12E-05 1.06E-04 3.54E-05 9.51E-05 5.81E-05 0.052 0.051 0.059 0.020 0.053 0.032 -6.2 -2.7 -1.1 -1.0 0.20 0.20 0.83 0.83 0.09 0.02 0.24 0.17 $\beta$ J0900-3144 90.0 4.94E-20 A 0.89 i 1.91E-27 1.35E-26 2.80E-27 6.24E-27 1.25E+31 1.62E-07 3.268 -5.0 -3.0 $\epsilon$ J0908-4913 9.4 1.51E-14 1.00 j 3.03E-25 1.10E-22 2.20E-25 2.76E-25 4.80E-25 5.90E-25 5.74E+34 1.00E+35 1.23E+35 7.43E-04 1.29E-03 1.59E-03 0.909 1.583 1.945 -2.6 0.69 0.16 0.31 $\eta$ J0921-5202 103.3 2.07E-20 0.40 k 2.95E-27 9.26E-27 2.31E-27 5.80E-27 3.97E+30 5.14E-08 1.967 -4.4 -2.2 $\delta$ J0931-1902 215.6 3.18E-21 A 3.72 b 1.79E-28 7.90E-27 3.57E-27 7.71E-27 1.13E+31 1.46E-07 42.971 -4.3 -2.1 $\epsilon$ J0955-6150 500.2 1.43E-20 2.17 b 9.93E-28 1.13E-26 5.56E-27 1.77E-26 2.81E+30 3.63E-08 17.851 -4.8 -2.2 $\delta$ J1012+5307 190.3 1.03E-20 A 0.70 j 1.62E-27 9.52E-27 3.95E-27 7.80E-27 2.76E+30 3.57E-08 4.825 -4.2 -2.1 $\epsilon$ J1012-4235 322.5 6.49E-21 0.37 b 3.14E-27 9.27E-27 7.13E-27 1.58E-26 1.03E+30 1.34E-08 5.043 -3.8 -1.8 $\delta$ J1017-7156 427.6 2.85E-21 A 3.50 f 2.54E-28 7.69E-27 4.08E-27 8.79E-27 3.07E+30 3.98E-08 34.554 -4.7 -2.4 $\delta$ J1022+1001 60.8 3.53E-20 A 0.64 f 1.84E-27 1.39E-26 3.82E-27 7.70E-27 2.44E+31 3.15E-07 4.172 -4.6 -1.9 $\delta$ J1024-0719 193.7 B 1.20 f 1.57E-26 3.75E-27 7.19E-27 4.20E+30 5.44E-08 -3.4 -2.2 $\epsilon$ J1035-6720 348.2 4.53E-20 A 1.46 b 2.19E-27 9.89E-27 4.42E-27 1.27E-26 2.79E+30 3.62E-08 5.792 -5.2 -2.2 $\delta$ J1036-8317 293.4 3.06E-20 0.93 b 2.59E-27 1.23E-26 3.34E-27 7.12E-27 1.41E+30 1.82E-08 2.744 -4.4 -2.4 $\delta$ J1038+0032 34.7 6.70E-20 5.95 b 2.07E-28 3.76E-26 3.24E-27 6.91E-27 6.25E+32 8.09E-06 33.440 -5.3 -2.6 $\epsilon$ J1045-4509 133.8 1.78E-20 A 0.59 f 2.11E-27 1.53E-26 4.96E-27 9.61E-27 5.79E+30 7.49E-08 4.561 -2.7 -1.3 $\delta$ J1101-6101 15.9 8.56E-15 7.00 l 4.25E-26 6.79E-25 8.90E-25 9.50E-25 1.22E-26 6.50E-27 2.58E-26 1.30E-26 2.10E-26 1.30E+34 6.56E+33 1.06E+34 1.69E-04 8.49E-05 1.37E-04 0.608 0.306 0.494 -9.8 -2.9 0.84 0.77 0.88 0.68 $\zeta$ J1101-6424 195.7 1.80E-21 2.17 b 2.20E-28 8.71E-27 2.27E-27 5.66E-27 5.87E+30 7.60E-08 25.728 -4.6 -2.7 $\delta$ J1103-5403 294.7 3.68E-21 1.68 b 4.99E-28 1.00E-26 3.38E-27 9.57E-27 3.39E+30 4.38E-08 19.166 -4.7 -3.5 $\delta$ J1105-6107 15.8 1.58E-14 2.36 b 1.71E-25 1.09E-24 1.20E-24 2.90E-26 2.90E-26 5.78E-26 5.80E-26 9.96E+33 9.99E+33 1.29E-04 1.29E-04 0.338 0.339 -3.5 -1.3 0.11 0.48 $\eta$ J1125+7819 238.0 B 0.88 b 7.72E-27 3.37E-27 7.26E-27 2.06E+30 2.66E-08 -4.5 -2.3 $\epsilon$ J1125-5825 322.4 5.99E-20 A 1.74 b 2.03E-27 8.59E-27 3.74E-27 9.19E-27 2.82E+30 3.65E-08 4.523 -4.7 -2.3 $\delta$ J1125-6014 380.2 4.01E-21 1.40 f 7.11E-28 7.98E-27 3.84E-27 8.22E-27 1.45E+30 1.88E-08 11.558 -4.7 -2.4 $\delta$ J1142+0119 197.0 B 2.17 b 1.57E-26 3.64E-27 7.40E-27 7.55E+30 9.78E-08 -3.4 -2.1 $\epsilon$ J1207-5050 206.5 5.69E-21 A 1.27 b 6.89E-28 9.54E-27 4.39E-27 1.10E-26 6.00E+30 7.76E-08 16.016 -4.1 -1.9 $\delta$ J1216-6410 282.5 1.62E-21 1.10 b 4.96E-28 9.71E-27 2.77E-27 7.33E-27 1.84E+30 2.39E-08 14.775 -4.5 -2.4 $\delta$ J1231-1411 271.5 8.27E-21 A 0.42 b 2.88E-27 1.29E-26 5.61E-27 1.06E-26 1.11E+30 1.43E-08 3.694 -3.8 -2.1 $\epsilon$ J1300+1240 160.8 B 0.60 j 1.20E-26 5.20E-27 1.10E-26 4.64E+30 6.01E-08 -3.5 -1.6 $\epsilon$ J1302-3258 265.2 6.55E-21 1.43 b 7.42E-28 2.12E-26 4.06E-27 7.53E-27 2.80E+30 3.62E-08 10.136 -3.3 -2.3 $\epsilon$ J1302-6350 20.9 2.28E-15 A 2.30 m 7.66E-26 2.46E-25 4.20E-25 1.16E-26 1.60E-26 2.42E-26 3.20E-26 2.32E+33 3.07E+33 3.00E-05 3.97E-05 0.316 0.418 -4.7 -2.3 0.03 0.18 $\eta$ J1312+0051 236.5 8.16E-21 A 1.47 b 7.62E-28 9.55E-27 2.89E-27 6.29E-27 3.02E+30 3.91E-08 8.262 -4.5 -2.4 $\epsilon$ J1327+3423 24.1 1.29E-19 1.26E-25 5.23E-27 1.57E-26 -5.1 -2.6 $\epsilon$ J1327-0755 373.4 B 25.00 b 1.01E-26 3.85E-27 7.90E-27 2.59E+31 3.35E-07 -4.6 -2.4 $\epsilon$ J1337-6423 106.1 1.78E-20 A 5.94 b 1.86E-28 1.32E-26 3.08E-27 6.68E-27 6.44E+31 8.33E-07 35.835 -4.2 -2.1 $\delta$ J1400-1431 324.2 9.00E-23 A 0.27 n 5.10E-28 8.23E-27 3.88E-27 8.31E-27 3.90E+29 5.05E-09 16.291 -4.6 -2.3 $\epsilon$ J1411+2551 16.0 8.94E-20 A 1.13 b 8.53E-28 9.70E-25 1.65E-26 3.18E-26 2.56E+33 3.32E-05 37.254 -9.3 -2.7 $\epsilon$ J1412+7922 16.9 3.29E-15 2.00 o 9.51E-26 1.21E-24 1.40E-24 1.50E-24 1.16E-26 1.20E-26 2.47E-26 2.40E-26 2.20E-26 3.16E+33 3.07E+33 2.82E+33 4.09E-05 3.98E-05 3.65E-05 0.260 0.252 0.231 -8.7 -2.7 0.66 0.07 0.66 0.32 $\zeta$ J1420-5625 29.3 6.75E-20 1.33 b 8.54E-28 6.00E-26 4.10E-27 1.13E-26 3.20E+32 4.14E-06 13.247 -5.1 -2.7 $\delta$ J1421-4409 156.6 6.04E-21 A 2.08 b 3.76E-28 1.03E-26 2.76E-27 6.62E-27 1.03E+31 1.33E-07 17.580 -4.3 -2.2 $\delta$ J1431-4715 497.0 1.13E-20 A 1.53 p 1.25E-27 1.50E-26 6.20E-27 1.57E-26 1.78E+30 2.30E-08 12.552 -4.4 -2.2 $\delta$ J1431-5740 243.3 6.42E-21 3.55 b 2.84E-28 9.74E-27 3.06E-27 6.71E-27 7.36E+30 9.52E-08 23.644 -4.4 -2.4 $\delta$ J1435-6100 107.0 2.45E-20 2.81 b 4.64E-28 8.18E-27 3.56E-27 8.01E-27 3.60E+31 4.66E-07 17.280 -3.9 -1.8 $\delta$ J1439-5501 34.9 1.42E-19 0.65 b 2.74E-27 3.55E-26 4.93E-27 1.04E-26 1.02E+32 1.32E-06 3.788 -5.1 -2.3 $\delta$ J1446-4701 455.6 9.60E-21 A 1.50 f 1.12E-27 1.12E-26 5.55E-27 1.20E-26 1.59E+30 2.05E-08 10.684 -4.3 -2.2 $\delta$ J1453+1902 172.6 9.15E-21 A 1.27 b 7.99E-28 1.31E-26 4.60E-27 8.04E-27 6.25E+30 8.09E-08 10.063 -4.1 -2.7 $\epsilon$ J1455-3330 125.2 2.27E-20 A 1.01 q 1.34E-27 9.18E-27 2.60E-27 5.45E-27 6.41E+30 8.30E-08 4.051 -4.3 -2.3 $\epsilon$ J1502-6752 37.4 2.17E-19 A 7.73 b 2.97E-28 3.09E-26 3.07E-27 7.01E-27 7.08E+32 9.16E-06 23.578 -5.6 -2.6 $\delta$ J1513-2550 471.9 2.16E-20 3.96 b 6.51E-28 1.60E-26 5.93E-27 1.25E-26 4.04E+30 5.24E-08 19.145 -3.9 -2.3 $\epsilon$ J1514-4946 278.6 1.14E-20 A 0.91 b 1.58E-27 1.16E-26 3.34E-27 1.04E-26 2.24E+30 2.89E-08 6.599 -4.2 -2.2 $\delta$ J1518+0204A 180.1 4.40E-20 C 8.00 r 2.84E-28 9.00E-27 4.87E-27 9.73E-27 4.38E+31 5.68E-07 34.281 -5.1 -2.2 $\epsilon$ J1518+4904 24.4 2.32E-20 A 0.96 b 6.29E-28 1.21E-25 4.51E-27 9.43E-27 2.78E+32 3.60E-06 14.979 -5.0 -3.0 $\epsilon$ J1525-5545 88.0 1.31E-19 3.14 b 8.74E-28 1.05E-26 2.41E-27 8.94E-27 6.61E+31 8.56E-07 10.228 -4.5 -1.8 $\delta$ J1528-3146 16.4 2.49E-19 0.77 b 2.11E-27 9.99E-25 8.56E-27 1.82E-26 9.52E+32 1.23E-05 8.633 -9.6 -2.9 $\epsilon$ J1529-3828 117.8 2.70E-20 4.30 b 3.35E-28 1.07E-26 2.68E-27 7.02E-27 3.97E+31 5.13E-07 20.947 -4.3 -2.1 $\delta$ J1536-4948 324.7 2.06E-20 A 0.98 b 2.14E-27 9.37E-27 4.66E-27 9.65E-27 1.64E+30 2.12E-08 4.520 -4.3 -2.2 $\delta$ J1537+1155 26.4 2.36E-18 A 1.05 s 6.05E-27 7.59E-26 6.59E-27 1.18E-26 3.27E+32 4.23E-06 1.957 -5.0 -2.7 $\epsilon$ J1537-5312 144.4 1.59E-20 3.05 b 4.00E-28 1.17E-26 2.05E-27 4.50E-27 1.20E+31 1.56E-07 11.256 -4.4 -2.4 $\delta$ J1543-5149 486.2 1.59E-20 A 1.15 b 1.95E-27 1.46E-26 4.63E-27 1.12E-26 9.93E+29 1.29E-08 5.732 -4.5 -2.4 $\delta$ J1544+4937 463.1 2.93E-21 2.99 b 3.14E-28 1.48E-26 7.09E-27 1.51E-26 3.84E+30 4.97E-08 48.000 -4.0 -2.0 $\epsilon$ J1545-4550 279.7 5.25E-20 2.20 f 1.40E-27 1.03E-26 3.07E-27 6.69E-27 3.44E+30 4.45E-08 4.763 -4.5 -2.4 $\delta$ J1547-5709 233.0 7.45E-21 2.69 b 3.94E-28 7.21E-27 3.05E-27 7.93E-27 7.19E+30 9.30E-08 20.100 -4.5 -2.3 $\delta$ J1551-0658 141.0 2.01E-20 1.32 b 1.02E-27 8.86E-27 2.68E-27 5.70E-27 6.94E+30 8.99E-08 5.563 -4.3 -2.3 $\gamma$ J1600-3053 277.9 7.95E-21 A 3.00 f 3.99E-28 1.26E-26 3.86E-27 8.30E-27 5.89E+30 7.62E-08 20.769 -4.1 -2.3 $\epsilon$ J1603-7202 67.4 1.71E-20 A 3.40 f 2.54E-28 1.29E-26 2.51E-27 5.16E-27 7.06E+31 9.14E-07 20.286 -4.6 -2.3 $\delta$ J1614-2230 317.4 3.71E-21 A 0.70 q 1.25E-27 1.20E-26 4.56E-27 9.91E-27 1.26E+30 1.63E-08 7.924 -4.2 -2.2 $\epsilon$ J1618-3921 83.4 5.41E-20 5.52 b 3.11E-28 2.08E-26 2.13E-27 5.24E-27 7.58E+31 9.81E-07 16.861 -3.6 -2.2 $\epsilon$ J1618-4624 168.6 3.10E-21 3.04 b 1.91E-28 1.32E-26 2.64E-27 6.86E-27 1.34E+31 1.74E-07 35.852 -4.4 -2.4 $\delta$ J1622-6617 42.3 5.06E-20 A 4.05 b 2.92E-28 2.88E-26 2.47E-27 5.74E-27 2.37E+32 3.07E-06 19.697 -5.2 -2.6 $\delta$ J1623-2631 90.3 8.77E-20 C 1.80 t 1.26E-27 1.96E-26 4.84E-27 1.08E-26 4.37E+31 5.65E-07 8.583 -3.2 -1.5 $\epsilon$ J1628-3205 311.4 B 1.23 b 1.19E-26 3.11E-27 8.88E-27 2.05E+30 2.65E-08 -4.3 -2.4 $\delta$ J1629-6902 166.6 1.00E-20 0.96 b 1.08E-27 9.70E-27 3.16E-27 6.47E-27 4.09E+30 5.30E-08 5.979 -4.4 -2.4 $\delta$ J1630+3734 301.4 8.49E-21 A 1.19 b 1.09E-27 1.07E-26 3.01E-27 8.63E-27 2.06E+30 2.67E-08 7.935 -4.4 -2.3 $\alpha$ J1640+2224 316.1 1.27E-21 A 1.52 u 3.37E-28 1.23E-26 3.55E-27 7.45E-27 2.06E+30 2.67E-08 22.099 -4.3 -2.4 $\epsilon$ J1641+3627A 96.4 8.22E-20 C 7.10 r 3.20E-28 1.10E-26 2.28E-27 5.51E-27 7.70E+31 9.96E-07 17.233 -4.5 -2.3 $\alpha$ J1643-1224 216.4 1.77E-20 A 1.20 f 1.32E-27 9.86E-27 4.78E-27 9.65E-27 4.52E+30 5.85E-08 7.333 -3.8 -1.8 $\epsilon$ J1652-4838 264.2 1.13E-20 9.99E-27 4.48E-27 9.86E-27 -4.1 -2.1 $\delta$ J1653-2054 242.2 1.12E-20 2.63 b 5.03E-28 8.82E-27 2.76E-27 6.62E-27 5.43E+30 7.03E-08 13.152 -4.5 -2.4 $\delta$ J1658-5324 410.0 1.09E-20 A 0.88 b 1.94E-27 9.75E-27 3.68E-27 8.30E-27 7.94E+29 1.03E-08 4.282 -4.6 -2.5 $\delta$ J1705-1903 403.2 2.12E-20 2.40 b 9.84E-28 1.14E-26 4.32E-27 9.88E-27 2.66E+30 3.44E-08 10.039 -4.5 -2.4 $\delta$ J1708-3506 222.0 8.55E-21 A 3.32 b 3.35E-28 9.88E-27 2.58E-27 5.70E-27 7.01E+30 9.08E-08 17.022 -4.4 -2.4 $\epsilon$ J1709+2313 215.9 1.26E-21 A 2.18 b 1.93E-28 1.65E-26 3.89E-27 8.09E-27 6.91E+30 8.94E-08 41.885 -3.7 -2.1 $\epsilon$ J1713+0747 218.8 7.76E-21 A 1.00 f 1.05E-27 9.05E-27 3.28E-27 6.88E-27 2.62E+30 3.40E-08 6.544 -4.4 -2.3 $\epsilon$ J1719-1438 172.7 7.30E-21 A 0.34 b 2.65E-27 1.04E-26 3.21E-27 7.19E-27 1.50E+30 1.94E-08 2.710 -4.8 -2.8 $\epsilon$ J1721-2457 286.0 B 1.36 b 1.15E-26 3.74E-27 7.64E-27 2.33E+30 3.02E-08 -4.4 -2.3 $\epsilon$ J1727-2946 36.9 2.41E-19 A 1.88 b 1.28E-27 4.48E-26 2.47E-27 6.59E-27 1.66E+32 2.15E-06 5.149 -4.9 -2.7 $\delta$ J1729-2117 15.1 1.72E-19 0.97 b 1.33E-27 1.54E-24 1.49E-26 3.13E-26 2.44E+33 3.16E-05 23.434 -9.2 -2.7 $\gamma$ J1730-2304 123.1 1.14E-20 A 0.47 f 2.03E-27 8.82E-27 2.33E-27 5.00E-27 2.83E+30 3.67E-08 2.463 -4.6 -2.3 $\epsilon$ J1731-1847 426.5 2.25E-20 A 4.78 b 5.23E-28 1.30E-26 3.93E-27 8.65E-27 4.15E+30 5.38E-08 16.541 -4.5 -2.5 $\epsilon$ J1732-5049 188.2 1.12E-20 A 1.88 b 6.23E-28 1.32E-26 2.33E-27 6.68E-27 6.46E+30 8.36E-08 10.713 -3.7 -2.3 $\delta$ J1737-0811 239.5 7.93E-21 0.21 b 5.40E-27 1.22E-26 5.29E-27 1.16E-26 7.60E+29 9.84E-09 2.148 -3.5 -1.8 $\delta$ J1738+0333 170.9 2.21E-20 A 1.47 v 1.07E-27 8.48E-27 2.26E-27 4.84E-27 4.45E+30 5.76E-08 4.535 -5.0 -2.9 $\epsilon$ J1741+1351 266.9 2.88E-20 A 1.08 w 2.08E-27 1.13E-26 3.02E-27 6.62E-27 1.83E+30 2.36E-08 3.180 -4.2 -2.4 $\epsilon$ J1744-1134 245.4 7.16E-21 A 0.41 f 2.61E-27 9.51E-27 4.86E-27 9.77E-27 1.21E+30 1.57E-08 3.746 -4.1 -2.1 $\epsilon$ J1745+1017 377.1 2.18E-21 A 1.21 b 6.02E-28 9.24E-27 3.82E-27 8.29E-27 1.29E+30 1.67E-08 13.768 -4.6 -2.4 $\epsilon$ J1745-0952 51.6 8.61E-20 A 0.23 b 7.52E-27 1.52E-26 2.10E-26 2.24E-27 1.00E-27 4.72E-27 3.70E-27 7.32E+30 5.74E+30 9.47E-08 7.42E-08 0.627 0.492 -5.1 -2.5 0.90 0.60 $\epsilon$ J1747-4036 607.7 1.10E-20 A 7.15 b 2.92E-28 1.58E-26 4.89E-27 1.12E-26 3.98E+30 5.15E-08 38.462 -4.5 -2.5 $\delta$ J1748-2446A 86.5 9.16E-20 C 6.90 r 3.29E-28 1.21E-26 3.66E-27 7.10E-27 1.20E+32 1.55E-06 21.582 -4.3 -2.0 $\gamma$ J1748-3009 103.3 B 5.05 b 1.03E-26 2.21E-27 7.45E-27 6.45E+31 8.35E-07 -4.4 -2.1 $\gamma$ J1750-2536 28.8 1.45E-19 3.22 b 5.11E-28 5.51E-26 5.96E-27 1.06E-26 7.55E+32 9.77E-06 20.793 -5.2 -2.7 $\gamma$ J1751-2857 255.4 1.01E-20 A 1.09 b 1.19E-27 1.55E-26 8.69E-27 1.99E-26 6.07E+30 7.86E-08 16.761 -3.4 -1.7 $\epsilon$ J1753-1914 15.9 2.02E-18 2.92 b 1.57E-27 1.27E-24 1.19E-26 2.61E-26 5.50E+33 7.12E-05 16.623 -9.4 -3.0 $\gamma$ J1753-2240 10.5 9.70E-19 3.23 b 7.97E-28 1.29E-23 5.67E-26 1.19E-25 6.36E+34 8.24E-04 149.453 -8.3 -2.6 $\gamma$ J1755-3716 78.2 3.11E-20 8.18 b 1.54E-28 1.34E-26 2.94E-27 5.78E-27 1.41E+32 1.83E-06 37.587 -4.4 -2.2 $\delta$ J1756-2251 35.1 1.02E-18 A 0.73 x 6.60E-27 3.90E-26 4.40E-26 2.78E-27 1.10E-27 6.13E-27 3.70E-27 6.62E+31 4.00E+31 8.57E-07 5.17E-07 0.929 0.561 -5.3 -2.7 0.92 0.34 $\epsilon$ J1757-1854 46.5 2.63E-18 19.56 b 4.56E-28 1.72E-26 2.71E-27 7.11E-27 1.17E+33 1.52E-05 15.583 -5.1 -2.3 $\delta$ J1757-5322 112.7 2.63E-20 0.94 b 1.47E-27 9.34E-27 5.33E-27 9.02E-27 1.23E+31 1.59E-07 6.138 -3.6 -1.8 $\delta$ J1801-1417 275.9 3.76E-21 A 1.10 b 7.43E-28 7.38E-27 3.21E-27 6.88E-27 1.82E+30 2.36E-08 9.258 -4.6 -2.3 $\epsilon$ J1801-3210 134.2 B 6.11 b 8.55E-27 4.67E-27 1.18E-26 7.32E+31 9.48E-07 -3.7 -1.5 $\delta$ J1802-2124 79.1 7.12E-20 A 0.76 i 2.52E-27 9.51E-27 2.16E-27 4.94E-27 1.10E+31 1.42E-07 1.962 -4.8 -2.3 $\epsilon$ J1804-0735 43.3 1.83E-19 C 7.80 r 2.91E-28 2.19E-26 6.85E-27 1.80E-26 1.37E+33 1.77E-05 61.721 -4.6 -1.2 $\gamma$ J1804-2717 107.0 3.48E-20 A 0.81 b 1.93E-27 8.00E-27 2.64E-27 5.87E-27 7.54E+30 9.76E-08 3.037 -4.3 -2.2 $\epsilon$ J1804-2858 669.9 B 8.19 b 1.53E-26 7.32E-27 1.80E-26 5.99E+30 7.75E-08 -4.5 -2.2 $\delta$ J1807-2459A 326.9 2.42E-20 C 3.00 r 7.57E-28 7.70E-27 5.88E-27 1.23E-26 6.29E+30 8.15E-08 16.211 -4.1 -1.7 $\gamma$ J1809-1917 12.1 2.55E-14 A 3.27 b 1.37E-25 7.49E-24 7.00E-24 7.50E-24 4.55E-26 6.30E-26 9.00E-26 1.30E-25 9.80E-26 3.68E+34 5.32E+34 4.01E+34 4.76E-04 6.88E-04 5.19E-04 0.656 0.948 0.715 -8.2 -2.1 0.52 0.40 0.11 0.37 $\gamma$ J1810+1744 601.4 4.36E-21 2.36 b 5.53E-28 1.42E-26 6.19E-27 1.47E-26 1.76E+30 2.27E-08 26.638 -4.5 -2.3 $\gamma$ J1810-2005 30.5 5.33E-20 A 3.51 b 2.92E-28 3.92E-26 3.87E-27 9.17E-27 6.34E+32 8.21E-06 31.366 -5.6 -2.8 $\delta$ J1811-2405 375.9 1.33E-20 A 1.83 b 9.86E-28 1.28E-26 7.51E-27 1.47E-26 3.48E+30 4.50E-08 14.910 -3.8 -1.9 $\epsilon$ J1813-1749 22.4 1.27E-13 A 6.20 y 2.19E-25 1.95E-25 1.90E-25 2.20E-25 7.67E-27 3.60E-27 1.53E-26 7.20E-27 9.90E-27 3.48E+33 1.63E+33 2.24E+33 4.50E-05 2.11E-05 2.91E-05 0.070 0.033 0.045 -4.7 -2.5 0.94 0.79 0.87 0.42 $\zeta$ J1813-2621 225.7 B 3.16 b 1.39E-26 2.57E-27 6.00E-27 6.80E+30 8.80E-08 -4.0 -2.4 $\gamma$ J1821+0155 29.6 2.90E-20 1.72 b 4.34E-28 5.11E-26 4.07E-27 1.15E-26 4.11E+32 5.33E-06 26.408 -5.5 -2.8 $\alpha$ J1823-3021A 183.8 4.31E-20 C 7.90 r 2.87E-28 1.23E-26 2.66E-27 5.69E-27 2.43E+31 3.15E-07 19.816 -4.2 -2.3 $\epsilon$ J1824-2452A 327.4 2.42E-20 C 5.50 z 4.13E-28 1.06E-26 6.63E-27 1.71E-26 1.61E+31 2.08E-07 41.495 -4.0 -1.7 $\gamma$ J1825-0319 219.6 6.80E-21 3.86 b 2.55E-28 9.46E-27 4.08E-27 9.48E-27 1.39E+31 1.80E-07 37.150 -4.1 -2.0 $\delta$ J1826-2415 213.0 1.74E-20 2.73 b 5.67E-28 8.51E-27 5.77E-27 1.19E-26 1.31E+31 1.69E-07 20.918 -3.6 -1.5 $\delta$ J1828-1101 13.9 1.48E-14 4.77 b 7.67E-26 3.28E-24 4.10E-24 8.70E-24 1.92E-26 1.40E-26 4.23E-26 2.30E-26 4.30E-26 1.91E+34 1.04E+34 1.94E+34 2.47E-04 1.35E-04 2.52E-04 0.551 0.300 0.561 -8.9 -2.6 0.71 0.29 0.89 0.76 $\gamma$ J1829+2456 24.4 5.25E-20 0.92 b 9.97E-28 1.03E-25 5.27E-27 1.11E-26 3.12E+32 4.04E-06 11.132 -5.2 -2.8 $\alpha$ J1832-0836 367.8 B 1.60 f 9.76E-27 3.82E-27 8.30E-27 1.79E+30 2.32E-08 -4.8 -2.4 $\epsilon$ J1833-0827 11.7 9.18E-15 A 4.50 j 5.88E-26 6.35E-24 4.65E-26 9.25E-26 5.53E+34 7.16E-04 1.574 -8.1 -2.1 $\eta$ J1835-0114 195.5 7.00E-21 3.45 b 2.73E-28 1.80E-26 3.15E-27 5.64E-27 9.31E+30 1.20E-07 20.632 -1.7 -2.5 $\delta$ J1838-0655 14.2 4.92E-14 6.60 aa 1.02E-25 3.36E-24 2.10E-24 3.10E-24 1.56E-26 6.30E-26 3.71E-26 1.00E-25 4.10E-26 2.22E+34 6.00E+34 2.46E+34 2.88E-04 7.76E-04 3.18E-04 0.363 0.979 0.401 -8.7 -2.7 0.68 0.26 0.96 0.67 $\zeta$ J1840-0643 28.1 9.54E-20 4.99 b 2.65E-28 5.12E-26 8.14E-27 1.77E-26 2.05E+33 2.65E-05 66.964 -4.0 -2.0 $\gamma$ J1841+0130 33.6 8.17E-18 4.23 b 3.16E-27 3.58E-26 3.32E-27 7.36E-27 5.04E+32 6.53E-06 2.331 -5.1 -2.6 $\gamma$ J1843-1113 541.8 9.34E-21 A 1.26 i 1.44E-27 1.06E-26 6.41E-27 1.33E-26 1.04E+30 1.35E-08 9.246 -4.5 -2.3 $\epsilon$ J1843-1448 182.8 B 3.47 b 1.25E-26 6.00E-27 1.32E-26 2.50E+31 3.24E-07 -3.0 -1.2 $\delta$ J1849-0001 26.0 1.42E-14 7.00 bb 6.99E-26 7.29E-26 3.40E-26 1.50E-25 5.03E-27 9.30E-27 1.03E-26 1.90E-26 1.60E-26 1.95E+33 3.61E+33 3.04E+33 2.52E-05 4.67E-05 3.93E-05 0.147 0.272 0.229 -5.3 -2.7 0.42 0.37 0.13 0.92 $\zeta$ J1853+1303 244.4 8.63E-21 A 1.32 b 8.88E-28 9.34E-27 4.47E-27 1.01E-26 4.09E+30 5.30E-08 11.424 -4.1 -2.1 $\epsilon$ J1856+0245 12.4 6.21E-14 6.32 b 1.12E-25 6.17E-24 1.20E-23 7.90E-24 2.23E-26 1.90E-26 5.15E-26 4.60E-26 1.00E-25 3.89E+34 3.48E+34 7.56E+34 5.04E-04 4.50E-04 9.78E-04 0.461 0.411 0.894 -8.6 -2.7 0.27 0.09 0.82 0.07 $\gamma$ J1857+0943 186.5 1.73E-20 A 1.18 f 1.23E-27 1.01E-26 3.25E-27 6.64E-27 4.12E+30 5.33E-08 5.417 -4.3 -2.2 $\epsilon$ J1858-2216 419.5 3.80E-21 0.92 b 1.11E-27 1.02E-26 3.63E-27 7.78E-27 7.44E+29 9.63E-09 7.039 -4.7 -2.4 $\delta$ J1902-5105 573.9 8.67E-21 A 1.65 b 1.09E-27 1.29E-26 7.06E-27 1.42E-26 1.29E+30 1.67E-08 12.951 -4.5 -2.3 $\eta$ J1903+0327 465.1 1.87E-20 A 6.12 b 3.88E-28 1.60E-26 5.48E-27 1.04E-26 5.40E+30 6.98E-08 26.872 -4.2 -2.4 $\epsilon$ J1903-7051 277.9 7.65E-21 A 0.93 b 1.26E-27 8.96E-27 5.93E-27 1.06E-26 2.33E+30 3.02E-08 8.384 -4.0 -2.0 $\delta$ J1904+0412 14.1 1.10E-19 4.58 b 2.19E-28 2.55E-24 2.16E-26 4.49E-26 1.90E+34 2.46E-04 204.938 -9.0 -2.6 $\gamma$ J1905+0400 264.2 4.19E-21 A 1.06 b 7.98E-28 1.30E-26 2.59E-27 6.47E-27 1.80E+30 2.33E-08 8.108 -4.1 -2.5 $\gamma$ J1909-3744 339.3 2.65E-21 A 1.15 f 6.64E-28 1.08E-26 5.70E-27 1.17E-26 2.13E+30 2.76E-08 17.577 -4.4 -2.1 $\delta$ J1910+1256 200.7 8.85E-21 A 1.50 b 7.18E-28 2.58E-26 4.98E-27 1.02E-26 6.95E+30 9.00E-08 14.259 -2.5 -2.0 $\epsilon$ J1911+1347 216.2 1.67E-20 A 1.36 b 1.12E-27 9.32E-27 2.62E-27 5.65E-27 3.02E+30 3.90E-08 5.028 -4.6 -2.4 $\epsilon$ J1911-1114 275.8 1.12E-20 A 1.07 b 1.32E-27 9.15E-27 3.04E-27 6.39E-27 1.64E+30 2.13E-08 4.827 -4.6 -2.4 $\epsilon$ J1913+1011 27.8 3.37E-15 4.61 b 5.35E-26 8.27E-26 8.70E-26 1.10E-25 1.01E-26 1.00E-26 2.41E-26 2.20E-26 1.30E-26 2.62E+33 2.39E+33 1.41E+33 3.39E-05 3.09E-05 1.83E-05 0.450 0.411 0.243 -4.0 -1.5 0.44 0.50 0.08 0.53 $\gamma$ J1914+0659 54.0 3.10E-20 8.47 b 1.23E-28 1.79E-26 2.79E-27 5.89E-27 3.12E+32 4.04E-06 47.808 -5.0 -2.4 $\gamma$ J1915+1606 16.9 8.64E-18 A 5.25 b 1.86E-27 6.07E-25 1.59E-26 3.30E-26 1.10E+34 1.43E-04 17.754 -8.4 -1.8 $\gamma$ J1918-0642 130.8 2.36E-20 A 1.10 a 1.29E-27 8.84E-27 4.82E-27 9.97E-27 1.17E+31 1.52E-07 7.747 -3.8 -1.4 $\epsilon$ J1923+2515 264.0 7.02E-21 A 1.20 b 9.14E-28 1.09E-26 2.80E-27 6.50E-27 2.05E+30 2.65E-08 7.110 -4.4 -2.5 $\alpha$ J1925+1720 13.2 1.05E-14 5.06 b 5.93E-26 3.96E-24 6.00E-24 3.70E-24 1.64E-26 2.20E-26 3.72E-26 4.30E-26 3.70E-26 1.97E+34 2.28E+34 1.96E+34 2.55E-04 2.95E-04 2.53E-04 0.628 0.725 0.624 -8.9 -2.9 0.93 0.72 0.73 0.10 $\gamma$ J1928+1746 14.5 1.32E-14 4.34 b 8.15E-26 1.13E-24 7.80E-25 3.50E-24 1.58E-26 2.10E-26 3.43E-26 4.30E-26 3.30E-26 1.28E+34 1.61E+34 1.24E+34 1.66E-04 2.08E-04 1.60E-04 0.421 0.528 0.405 -9.3 -3.1 0.86 0.02 0.55 0.90 $\gamma$ J1933-6211 282.2 2.94E-21 A 0.65 b 1.13E-27 1.29E-26 3.06E-27 6.19E-27 9.22E+29 1.19E-08 5.470 -4.1 -2.5 $\delta$ J1935+2025 12.5 6.08E-14 4.60 b 1.53E-25 3.36E-24 1.20E-23 3.90E-24 2.46E-26 4.20E-26 5.32E-26 8.50E-26 6.40E-26 2.87E+34 4.59E+34 3.45E+34 3.71E-04 5.94E-04 4.47E-04 0.348 0.557 0.419 -9.1 -2.6 0.68 0.90 0.43 1.00 $\gamma$ J1939+2134 641.9 1.06E-19 A 4.80 f 1.38E-27 1.79E-26 1.55E-26 2.20E-26 4.67E+30 6.05E-08 15.870 -2.8 -2.0 $\gamma$ J1943+2210 196.7 8.79E-21 6.77 b 1.57E-28 9.91E-27 2.25E-27 5.83E-27 1.87E+31 2.42E-07 37.265 -4.5 -2.4 $\gamma$ J1944+0907 192.9 6.47E-21 A 1.22 b 7.40E-28 9.26E-27 2.94E-27 6.17E-27 3.69E+30 4.78E-08 8.338 -4.4 -2.4 $\epsilon$ J1946+3417 315.4 1.00E-21 A 6.94 b 6.53E-29 7.81E-27 5.54E-27 1.15E-26 1.47E+31 1.90E-07 176.864 -4.2 -2.0 $\epsilon$ J1946-5403 368.9 2.72E-21 1.15 b 7.04E-28 9.87E-27 5.39E-27 1.20E-26 1.85E+30 2.39E-08 17.037 -4.2 -2.1 $\delta$ J1949+3106 76.1 9.29E-20 A 7.47 b 2.87E-28 1.22E-26 3.90E-27 7.79E-27 1.84E+32 2.38E-06 27.143 -4.4 -2.1 $\epsilon$ J1950+2414 232.3 2.00E-20 A 7.27 b 2.39E-28 1.15E-26 5.08E-27 9.09E-27 2.24E+31 2.90E-07 38.074 -3.7 -2.2 $\gamma$ J1952+3252 25.3 5.85E-15 A 3.00 j 1.03E-25 1.03E-25 9.76E-26 1.00E-25 1.10E-25 1.10E-25 8.13E-27 8.13E-27 1.60E-26 1.79E-26 1.63E-26 3.00E-26 2.20E-26 2.10E-26 1.54E+33 1.39E+33 2.57E+33 1.88E+33 1.80E+33 1.99E-05 1.80E-05 3.33E-05 2.44E-05 2.33E-05 0.173 0.157 0.290 0.213 0.203 -4.7 -4.6 -2.1 -2.2 0.30 0.30 0.79 0.79 0.16 0.54 $\alpha$ J1955+2527 205.2 1.12E-20 A 8.18 b 1.49E-28 1.10E-26 4.76E-27 9.78E-27 3.47E+31 4.49E-07 65.493 -3.5 -1.6 $\epsilon$ J1955+2908 163.0 3.10E-20 A 6.30 b 2.88E-28 8.71E-27 2.52E-27 5.52E-27 2.39E+31 3.09E-07 19.191 -4.6 -2.5 $\epsilon$ J1959+2048 622.1 1.19E-20 A 1.40 cc 1.57E-27 1.76E-26 6.94E-27 1.31E-26 8.66E+29 1.12E-08 8.347 -4.2 -2.4 $\epsilon$ J2007+2722 40.8 9.61E-19 7.10 b 7.11E-28 1.84E-26 7.93E-27 1.60E-26 1.25E+33 1.62E-05 22.530 -4.1 -1.8 $\gamma$ J2010-1323 191.5 3.03E-21 A 1.16 b 5.29E-28 1.13E-26 7.35E-27 1.44E-26 8.34E+30 1.08E-07 27.266 -2.6 -0.8 $\epsilon$ J2017+0603 345.3 8.04E-21 A 1.40 b 9.60E-28 1.14E-26 3.50E-27 7.70E-27 1.65E+30 2.14E-08 8.023 -5.2 -2.6 $\epsilon$ J2019+2425 254.2 1.59E-21 A 1.16 b 4.41E-28 7.53E-27 5.06E-27 1.06E-26 3.49E+30 4.52E-08 24.073 -4.4 -2.1 $\epsilon$ J2022+2534 377.9 6.16E-21 9.15E-27 5.22E-27 1.46E-26 -4.6 -1.9 $\epsilon$ J2033+1734 168.1 8.41E-21 A 1.74 b 5.51E-28 1.02E-26 3.57E-27 6.75E-27 7.59E+30 9.83E-08 12.247 -4.4 -2.4 $\epsilon$ J2039-3616 305.3 8.43E-21 1.70 b 7.63E-28 7.48E-27 4.89E-27 1.01E-26 3.36E+30 4.34E-08 13.237 -4.3 -2.0 $\epsilon$ J2043+1711 420.2 4.14E-21 A 1.60 a 6.65E-28 1.64E-26 5.00E-27 1.07E-26 1.77E+30 2.29E-08 16.103 -4.4 -2.4 $\epsilon$ J2043+2740 10.4 1.27E-15 1.48 b 6.26E-26 1.68E-23 7.94E-26 1.64E-25 4.11E+34 5.32E-04 2.625 -7.9 -2.4 $\alpha$ J2045+3633 31.6 5.93E-19 A 5.63 b 6.20E-28 5.22E-26 2.94E-27 6.54E-27 6.75E+32 8.74E-06 10.548 -5.3 -2.8 $\epsilon$ J2047+1053 233.3 2.08E-20 2.79 b 6.36E-28 1.04E-26 3.50E-27 7.06E-27 6.62E+30 8.57E-08 11.107 -4.2 -2.3 $\gamma$ J2051-0827 221.8 1.21E-20 A 1.47 b 8.99E-28 1.62E-26 2.52E-27 5.70E-27 3.11E+30 4.03E-08 6.341 -3.9 -2.5 $\epsilon$ J2053+4650 79.5 1.71E-19 A 3.81 b 7.81E-28 1.38E-26 2.37E-27 5.27E-27 5.81E+31 7.52E-07 6.752 -4.3 -2.2 $\epsilon$ J2055+3829 478.6 8.48E-22 A 4.59 b 1.12E-28 8.50E-27 5.58E-27 1.19E-26 4.36E+30 5.64E-08 106.412 -4.7 -2.3 $\epsilon$ J2124-3358 202.8 8.01E-21 A 0.44 f 2.34E-27 1.06E-26 3.34E-27 7.07E-27 1.38E+30 1.79E-08 3.024 -4.1 -2.3 $\epsilon$ J2129-5721 268.4 1.93E-20 A 7.00 f 2.62E-28 1.01E-26 3.86E-27 7.31E-27 1.30E+31 1.68E-07 27.856 -4.3 -2.3 $\delta$ J2144-5237 198.4 8.90E-21 1.66 b 6.46E-28 7.84E-27 3.64E-27 6.94E-27 5.35E+30 6.92E-08 10.748 -4.5 -2.4 $\delta$ J2145-0750 62.3 2.69E-20 A 0.83 f 1.26E-27 1.92E-26 4.51E-27 8.93E-27 3.49E+31 4.51E-07 7.094 -4.0 -1.9 $\epsilon$ J2150-0326 284.8 8.16E-21 9.60E-27 3.08E-27 6.58E-27 -4.5 -2.4 $\epsilon$ J2205+6012 414.0 1.98E-20 3.53 b 6.53E-28 7.90E-27 6.09E-27 1.27E-26 4.80E+30 6.21E-08 19.507 -4.2 -1.9 $\epsilon$ J2214+3000 320.6 1.29E-20 A 0.60 dd 2.74E-27 8.03E-27 3.91E-27 8.32E-27 8.87E+29 1.15E-08 3.037 -4.6 -2.3 $\epsilon$ J2222-0137 30.5 1.51E-20 A 0.27 ee 2.05E-27 5.13E-26 7.08E-27 1.39E-26 7.29E+31 9.44E-07 6.771 -5.0 -2.5 $\epsilon$ J2229+2643 335.8 1.45E-21 A 1.80 b 3.12E-28 2.00E-26 3.20E-27 6.68E-27 1.95E+30 2.52E-08 21.376 -3.5 -2.5 $\epsilon$ J2229+6114 19.4 7.83E-14 3.00 ff 3.31E-25 4.08E-25 3.97E-25 3.20E-25 4.00E-25 4.30E-25 3.40E-25 8.08E-27 5.46E-27 8.00E-27 6.40E-27 1.71E-26 1.09E-26 1.60E-26 1.20E-26 1.30E-26 1.40E-26 2.50E+33 1.59E+33 2.34E+33 1.75E+33 1.90E+33 2.04E+33 3.24E-05 2.06E-05 3.02E-05 2.27E-05 2.46E-05 2.65E-05 0.052 0.033 0.048 0.036 0.039 0.042 -8.2 -5.2 -2.9 -3.0 0.85 0.85 0.72 0.72 0.74 0.52 0.78 0.52 $\alpha$ J2234+0611 279.6 8.40E-21 A 1.50 a 8.24E-28 9.14E-27 3.59E-27 7.61E-27 2.67E+30 3.45E-08 9.237 -4.5 -2.4 $\epsilon$ J2234+0944 275.7 1.33E-20 A 0.80 a 1.93E-27 1.30E-26 4.20E-27 8.58E-27 1.65E+30 2.13E-08 4.441 -4.1 -2.2 $\epsilon$ J2235+1506 16.7 9.20E-20 A 1.54 b 6.50E-28 1.03E-24 8.80E-27 1.92E-26 1.93E+33 2.49E-05 29.497 -9.5 -2.8 $\alpha$ J2236-5527 144.8 9.60E-21 2.05 b 4.63E-28 9.16E-27 3.13E-27 5.39E-27 9.64E+30 1.25E-07 11.630 -4.2 -2.3 $\delta$ J2241-5236 457.3 5.08E-21 A 1.05 f 1.17E-27 1.33E-26 4.03E-27 8.81E-27 8.08E+29 1.05E-08 7.523 -4.6 -2.5 $\delta$ J2256-1024 435.8 1.00E-20 A 1.33 b 1.27E-27 1.48E-26 4.94E-27 1.05E-26 1.34E+30 1.74E-08 8.291 -4.2 -2.4 $\epsilon$ J2302+4442 192.6 1.37E-20 A 0.86 b 1.52E-27 7.05E-27 3.70E-27 7.79E-27 3.29E+30 4.26E-08 5.109 -4.2 -2.1 $\epsilon$ J2317+1439 290.3 2.69E-21 A 2.16 b 3.30E-28 8.70E-27 5.39E-27 1.09E-26 5.09E+30 6.59E-08 32.956 -4.2 -2.0 $\epsilon$ J2322+2057 208.0 3.22E-21 A 1.01 b 6.54E-28 8.26E-27 2.88E-27 6.25E-27 2.66E+30 3.45E-08 9.557 -4.4 -2.3 $\epsilon$ J2322-2650 288.8 4.09E-22 A 0.23 gg 1.21E-27 9.47E-27 4.82E-27 1.13E-26 5.67E+29 7.35E-09 9.342 -4.2 -2.0 $\delta$