6 research outputs found
Effectiveness of probiotics in the prevention of carious lesions during treatment with fixed orthodontic appliances.
- Author
- Ahmed A Dachang W, Lei Z, Jianjun L, Juanjuan Q, Yi X.
- Antonova IN Goncharov VD, Bobrova EA.
- Ata-Ali F Ata-Ali J, Ferrer-Molina M, Cobo T, De Carlos F, Cobo J.
- Benson PE Parkin N, Dyer F, Millett DT, Furness S, Germain P.
- Cagetti MG Mastroberardino S, Milia E, Cocco F, Lingström P, Campus G.
- Cericato GO Bittencourt MA, Paranhos LR.
- Chaturvedi S Jain U.
- Chinnappa A Konde H, Konde S, Raj S, Beena JP.
- Cildir SK Germec D, Sandalli N, Ozdemir F, Arun T, Twetman S, Caglar E.
- Cochrane NJ Cai F, Huq NL, Burrow MF, Reynolds EC.
- Echevarria IM Walker S.
- Flichy-Fernández AJ Alegre-Domingo T, Peñarrocha-Oltra D, Peñarrocha-Diago M.
- Giorgetti G Brandimarte G, Fabiocchi F, Ricci S, Flamini P, Sandri G, Trotta MC, Elisei W, Penna A, Lecca PG, Picchio M, Tursi A.
- Gizani S Petsi G, Twetman S, Caroni C, Makou M, Papagianoulis L.
- Gruner D Paris S, Schwendicke F.
- Gungor OE Kirzioglu Z, Kivanc M.
- Haukioja A.
- Hoorizad M Mirhashemi route M, Rahpeyma R, Salehi M, Zavareian S.
- Iqbal MZ Qadir MI, Hussain T, Janbaz KH, Khan YH, Ahmad B.
- Jiang S Chen S, Zhang C, Zhao X, Huang X, Cai Z.
- Jose JE Padmanabhan S, Chitharanjan AB.
- Khoroushi M Kachuie M.
- Kim S Katchooi M, Bayiri B, Sarikaya M, Korpak AM, Huang GJ.
- Kour S Verma VK, Sachan A, Singh K, Arora A, Kaur G.
- Kuribayashi M Kitasako Y, Matin K, Sadr A, Shida K, Tagami J.
- Laleman I Detailleur V, Slot DE, Slomka V, Quirynen M, Teughels W.
- Lee SH Kim YJ.
- Legéňová K Bujdáková H.
- Li J Xie X, Wang Y, Yin W, Antoun JS, Farella M, Mei L.
- Lopatiene K Borisovaite M, Lapenaite E.
- Maukonen J Mättö J, Suihko ML, Saarela M.
- Meeran NA.
- Meyer-Lueckel H Paris S.
- Migliorati M Isaia L, Cassaro A, Rivetti A, Silvestrini-Biavati F, Gastaldo L, Piccardo I, Dalessandri D, Silvestrini-Biavati A.
- Moher D Liberati A, Tetzlaff J, Altman DG. PRISMA Group.
- Morrier JJ.
- O’Brien-Simpson NM Burgess K, Lenzo JC, Brammar GC, Darby IB, Reynolds EC.
- Parisotto TM Steiner-Oliveira C, Silva CM, Rodrigues LK, Nobre-dos-Santos M.
- Pinto GS Cenci MS, Azevedo MS, Epifanio M, Jones MH.
- Pithon MM Sant’Anna LI, Baião FC, dos Santos RL, Coqueiro Rda S, Maia LC.
- Preshaw PM Henne K, Taylor JJ, Valentine RA, Conrads G.
- Reema SD Lahiri PK, Roy SS.
- Ritthagol W Saetang C, Teanpaisan R.
- Shukla C Maurya R, Singh V, Tijare M.
- Shukla C Maurya RK, Singh V, Tijare M.
- Simark-Mattsson C Emilson CG, Håkansson EG, Jacobsson C, Roos K, Holm S.
- Sundararaj D Venkatachalapathy S, Tandon A, Pereira A.
- Teanpaisan R Piwat S, Dahlén G.
- Twetman S Keller MK.
- Willmot D.
- Wu CC Lin CT, Wu CY, Peng WS, Lee MJ, Tsai YC.
- Yli-Knuuttila H Snäll J, Kari K, Meurman JH.
- Zabokova-Bilbilova E Popovska L, Kapusevska B, Stefanovska E.
- Zharmagambetova A Tuleutayeva S, Akhmetova S, Zharmagambetov A.
- Publication venue
- 'Facultad de Odontologia, Universidad de Concepcion'
- Publication date
- Field of study
II–IV Semiconductors for Optoelectronics: CdS, CdSe, CdTe
- Author
- A Abken
- A Tanaka
- AD Compaan
- AW Brinkman
- B McCandless
- B Yang
- B Yang
- C Ceibel
- C Scheiber
- C Scheiber
- C Szeles
- DA Cusano
- DW Cunningham
- E Becquerel
- G Gidiputti
- G Sato
- H Uda
- HB Barber
- HW Schock
- J Britt
- J Britt
- JM Woodcock
- K Kuribayashi
- K Murase
- K Murase
- K Nakazawa
- K Zanio
- K Zweibel
- KL Barth
- KW Mitchell
- KY Lay
- L Verger
- M Amman
- M Azoulay
- M Fiederle
- M Funaki
- M Isshiki
- M Miyake
- M Tsuji
- MPR Panicker
- N Nakayama
- N Nakayama
- P Siffert
- PD Maycock
- R Arlt
- R Triboulet
- R Triboulet
- R Triboulet
- RG Little
- RK Route
- RO Bell
- RO Bell
- RW Dutton
- RW Swank
- S Ikegami
- S Yin
- S Yin
- SH Song
- T Aramoto
- T Aramoto
- T Takahashi
- T Takahashi
- T Takahashi
- T Takahashi
- T Takahashi
- T Tanaka
- VK Krishna
- W Akutagawa
- WK Yoon
- Y-S Tyan
- YuA Vodakov
- Publication venue
- 'Springer Science and Business Media LLC'
- Publication date
- 01/01/2006
- Field of study
Observation of a kilogram-scale oscillator near its quantum ground state
- Author
- Abbott B
- Abbott R
- Adhikari R
- Ajith P
- Allen B
- Allen G
- Amin R
- Anderson SB
- Anderson WG
- Arain MA
- Araya M
- Armandula H
- Armor P
- Aso Y
- Aston S
- Aufmuth P
- Aulbert C
- Babak S
- Ballmer S
- Bantilan H
- Barish BC
- Barker C
- Barker D
- Barr B
- Barriga P
- Barton MA
- Bastarrika M
- Bayer K
- Betzwieser J
- Beyersdorf PT
- Bilenko IA
- Billingsley G
- Biswas R
- Black E
- Blackburn K
- Blackburn L
- Blair D
- Bland B
- Bodiya TP
- Bogue L
- Bork R
- Boschi V
- Bose S
- Brady PR
- Braginsky VB
- Brau JE
- Brinkmann M
- Brooks A
- Brown DA
- Brunet G
- Bullington A
- Buonanno A
- Burmeister O
- Byer RL
- Cadonati L
- Cagnoli G
- Camp JB
- Cannizzo J
- Cannon K
- Cao J
- Cardenas L
- Casebolt T
- Castaldi G
- Cepeda C
- Chalkley E
- Charlton P
- Chatterji S
- Chelkowski S
- Chen Y
- Christensen N
- Clark D
- Clark J
- Cokelaer T
- Conte R
- Cook D
- Corbitt T
- Coyne D
- Creighton JDE
- Cumming A
- Cunningham L
- Cutler RM
- Dalrymple J
- Danilishin S
- Danzmann K
- Davies G
- de la Jordana LS
- Debra D
- Degallaix J
- Degree M
- Dergachev V
- Desai S
- DeSalvo R
- Dhurandhar S
- Diaz M
- Dickson J
- Dietz A
- Donovan F
- Dooley KL
- Doomes EE
- Drever RWP
- Duke I
- Dumas JC
- Dupuis RJ
- Dwyer JG
- Echols C
- Effler A
- Ehrens P
- Espinoza E
- Etzel T
- Evans T
- Fairhurst S
- Fan Y
- Fazi D
- Fehrmann H
- Fejer MM
- Finn LS
- Flasch K
- Fotopoulos N
- Freise A
- Frey R
- Fricke T
- Fritschel P
- Frolov VV
- Fyffe M
- Garofoli J
- Gholami I
- Giaime JA
- Giampanis S
- Giardina KD
- Goda K
- Goetz E
- Goggin L
- Gonzlez G
- Gossler S
- Gouaty R
- Grant A
- Gras S
- Gray C
- Gray M
- Greenhalgh RJS
- Gretarsson AM
- Grimaldi F
- Grosso R
- Grote H
- Grunewald S
- Guenther M
- Gustafson EK
- Gustafson R
- Hage B
- Hallam JM
- Hammer D
- Hanna C
- Hanson J
- Harms J
- Harry G
- Harstad E
- Hayama K
- Hayler T
- Heefner J
- Heng IS
- Hennessy M
- Heptonstall A
- Hewitson M
- Hild S
- Hirose E
- Hoak D
- Hosken D
- Hough J
- Huttner SH
- Ingram D
- Ito M
- Ivanov A
- Johnson B
- Johnson WW
- Jones DI
- Jones G
- Jones R
- Ju L
- Kalmus P
- Kalogera V
- Kamat S
- Kanner J
- Kasprzyk D
- Katsavounidis E
- Kawabe K
- Kawamura S
- Kawazoe F
- Kells W
- Keppel DG
- Khalili FY
- Khan R
- Khazanov E
- Kim C
- King P
- Kissel JS
- Klimenko S
- Kokeyama K
- Kondrashov V
- Kopparapu RK
- Kozak D
- Kozhevatov I
- Krishnan B
- Kwee P
- Lam PK
- Landry M
- Lang MM
- Lantz B
- Lazzarini A
- Lei M
- Leindecker N
- Leonhardt V
- Leonor I
- Libbrecht K
- Lin H
- Lindquist P
- Lockerbie NA
- Lodhia D
- Lormand M
- Lu P
- Lubinski M
- Lucianetti A
- Luck H
- Machenschalk B
- MacInnis M
- Mageswaran M
- Mailand K
- Mandic V
- Marka S
- Marka Z
- Markosyan A
- Markowitz J
- Maros E
- Martin I
- Martin RM
- Marx JN
- Mason K
- Matichard F
- Matone L
- Matzner R
- Mavalvala N
- McCarthy R
- McClelland DE
- McGuire SC
- McHugh M
- McIntyre G
- McIvor G
- McKechan D
- McKenzie K
- Meier T
- Melissinos A
- Mendell G
- Mercer RA
- Meshkov S
- Messenger CJ
- Meyers D
- Miao H
- Miller J
- Minelli J
- Mitra S
- Mitrofanov VP
- Mitselmakher G
- Mittleman R
- Miyakawa O
- Moe B
- Mohanty S
- Moreno G
- Mossavi K
- Mow-Lowry C
- Mueller G
- Mukherjee S
- Mukhopadhyay H
- Muller-Ebhardt H
- Munch J
- Murray P
- Myers E
- Myers J
- Nash T
- Nelson J
- Newton G
- Nishizawa A
- Numata K
- O\u27Dell J
- O\u27Reilly B
- O\u27Shaughnessy R
- Ogin G
- Ottaway DJ
- Ottens RS
- Overmier H
- Owen BJ
- Pan Y
- Pankow C
- Papa MA
- Parameshwaraiah V
- Patel P
- Pedraza M
- Penn S
- Perreca A
- Petrie T
- Pinto IM
- Pitkin M
- Pletsch HJ
- Plissi MV
- Postiglione F
- Principe M
- Prix R
- Quetschke V
- Raab F
- Rabeling DS
- Radkins H
- Rainer N
- Rakhmanov M
- Ramsunder M
- Rehbein H
- Reid S
- Reitze DH
- Riesen R
- Riles K
- Rivera B
- Robertson NA
- Robinson C
- Robinson EL
- Roddy S
- Rodriguez A
- Rogan AM
- Rollins J
- Romano JD
- Romie J
- Route R
- Rowan S
- Rudiger A
- Ruet L
- Russell P
- Ryan K
- Sakata S
- Samidi M
- Sandberg V
- Sannibale V
- Saraf S
- Sarin P
- Sathyaprakash BS
- Sato S
- Saulson PR
- Savage R
- Savov P
- Schediwy SW
- Schilling R
- Schnabel R
- Schofield R
- Schutz BF
- Schwinberg P
- Scott SM
- Searle AC
- Sears B
- Seifert F
- Sellers D
- Sengupta AS
- Shawhan P
- Shoemaker DH
- Sibley A
- Siemens X
- Sigg D
- Sinha S
- Sintes AM
- Slagmolen BJJ
- Slutsky J
- Smith JR
- Smith MR
- Smith ND
- Somiya K
- Sorazu B
- Stein LC
- Stochino A
- Stone R
- Strain KA
- Strom DM
- Stuver A
- Summerscales TZ
- Sun KX
- Sung M
- Sutton PJ
- Takahashi H
- Tanner DB
- Taylor R
- Taylor R
- Thacker J
- Thorne KA
- Thorne KS
- Thuring A
- Tokmakov KV
- Torres C
- Torrie C
- Traylor G
- Trias M
- Tyler W
- Ugolini D
- Ulmen J
- Urbanek K
- Vahlbruch H
- Van Den Broeck C
- van der Sluys M
- Vass S
- Vaulin R
- Vecchio A
- Veitch J
- Veitch P
- Villar A
- Vorvick C
- Vyatchanin SP
- Waldman SJ
- Wallace L
- Ward H
- Ward R
- Weinert M
- Weinstein A
- Weiss R
- Wen S
- Wette K
- Whelan JT
- Whitcomb SE
- Whiting BF
- Wilkinson C
- Willems PA
- Williams HR
- Williams L
- Willke B
- Wilmut I
- Winkler W
- Wipf CC
- Wiseman AG
- Woan G
- Wooley R
- Worden J
- Wu W
- Yakushin I
- Yamamoto H
- Yan Z
- Yoshida S
- Zanolin M
- Zhang J
- Zhang L
- Zhao C
- Zotov N
- Zucker M
- Zweizig J
- Publication venue
- ScholarWorks@UMass Amherst
- Publication date
- 01/01/2009
- Field of study
We introduce a novel cooling technique capable of approaching the quantum ground state of a kilogram-scale system—an interferometric gravitational wave detector. The detectors of the Laser Interferometer Gravitational-wave Observatory (LIGO) operate within a factor of 10 of the standard quantum limit (SQL), providing a displacement sensitivity of 10−18 m in a 100 Hz band centered on 150 Hz. With a new feedback strategy, we dynamically shift the resonant frequency of a 2.7 kg pendulum mode to lie within this optimal band, where its effective temperature falls as low as 1.4 μK, and its occupation number reaches about 200 quanta. This work shows how the exquisite sensitivity necessary to detect gravitational waves can be made available to probe the validity of quantum mechanics on an enormous mass scale
First cross-correlation analysis of interferometric and resonant-bar gravitational-wave data for stochastic backgrounds (vol 76, art no 022001, 2007)
- Author
- Abbott B
- Abbott R
- Adhikari R
- Agresti J
- Ajith P
- ALLEGRO Collaboration
- Allen B
- Amin R
- Anderson SB
- Anderson WG
- Arain M
- Araya M
- Armandula H
- Ashley M
- Aston S
- Aufmuth P
- Aulbert C
- Babak S
- Ballmer S
- Bantilan H
- Barish BC
- Barker C
- Barker D
- Barr B
- Barriga P
- Barton MA
- Bayer K
- Belczynski K
- Betzwieser J
- Beyersdorf PT
- Bhawal B
- Bilenko IA
- Billingsley G
- Biswas R
- Black E
- Blackburn K
- Blackburn L
- Blair D
- Bland B
- Bogenstahl J
- Bogue L
- Bork R
- Boschi V
- Bose S
- Brady PR
- Braginsky VB
- Brau JE
- Brinkmann M
- Brooks A
- Brown DA
- Bullington A
- Bunkowski A
- Buonanno A
- Burgamy M
- Burmeister O
- Busby D
- Byer RL
- Cadonati L
- Cagnoli G
- Camp JB
- Cannizzo J
- Cannon K
- Cantley CA
- Cao J
- Cardenas L
- Casey MM
- Castaldi G
- Cepeda C
- Chalkey E
- Charlton P
- Chatterji S
- Chelkowski S
- Chen Y
- Chiadini F
- Chin D
- Chin E
- Chow J
- Christensen N
- Clark J
- Cochrane P
- Cokelaer T
- Colacino CN
- Coldwell R
- Conte R
- Cook D
- Corbitt T
- Coward D
- Coyne D
- Creighton JDE
- Creighton TD
- Croce RP
- Crooks DRM
- Cruise AM
- Cumming A
- D'Ambrosio E
- Dalrymple J
- Danzmann K
- Davies G
- de la Jordana LS
- Debra D
- Degallaix J
- Degree M
- Demma T
- Dergachev V
- Desai S
- DeSalvo R
- Dhurandhar S
- Di Credico A
- Diaz M
- Dickson J
- Diederichs G
- Dietz A
- Doomes EE
- Drever RWP
- Dumas JC
- Dupuis RJ
- Dwyer JG
- Ehrens P
- Espinoza E
- Etzel T
- Evans M
- Evans T
- Fairhurst S
- Fan Y
- Fazi D
- Fejer MM
- Finn LS
- Fiumara V
- Fotopoulos N
- Franzen A
- Franzen KY
- Freise A
- Frey R
- Fricke T
- Fritschel P
- Frolov VV
- Fyffe M
- Galdi V
- Garofoli J
- Gholami I
- Giaime JA
- Giampanis S
- Giardina KD
- Goda K
- Goetz E
- Goggin L
- Gonzalez G
- Gossler S
- Grant A
- Gras S
- Gray C
- Gray M
- Greenhalgh J
- Gretarsson AM
- Grosso R
- Grote H
- Grunewald S
- Guenther M
- Gustafson R
- Hage B
- Hamilton WO
- Hammer D
- Hanna C
- Hanson J
- Harms J
- Harry G
- Harstad E
- Hayler T
- Heefner J
- Heng IS
- Heptonstall A
- Heurs M
- Hewitson M
- Hild S
- Hirose E
- Hoak D
- Hosken D
- Hough J
- Howell E
- Hoyland D
- Huttner SH
- Ingram D
- Innerhofer E
- Ito M
- Itoh Y
- Ivanov A
- Jackrel D
- Johnson B
- Johnson WW
- Jones DI
- Jones G
- Jones R
- Ju L
- Kalmus P
- Kalogera V
- Kasprzyk D
- Katsavounidis E
- Kawabe K
- Kawamura S
- Kawazoe F
- Kells W
- Keppel DG
- Khalili FY
- Kim C
- King P
- Kissel JS
- Klimenko S
- Kokeyama K
- Kondrashov V
- Kopparapu RK
- Kozak D
- Krishnan B
- Kwee P
- Lam PK
- Landry M
- Lantz B
- Lazzarini A
- Lee B
- Lei M
- Leiner J
- Leonhardt V
- Leonor I
- Libbrecht K
- LIGO Sci Collaboration
- Lindquist P
- Lockerbie NA
- Longo M
- Lormand M
- Lubinski M
- Luck H
- Machenschalk B
- MacInnis M
- Mageswaran M
- Mailand K
- Malec M
- Mandic V
- Marano S
- Marka S
- Markowitz J
- Maros E
- Martin I
- Marx JN
- Mason K
- Matone L
- Matta V
- Mavalvala N
- McCarthy R
- McCaulley BJ
- McClelland DE
- McGuire SC
- McHugh M
- McKenzie K
- McNabb JWC
- McWilliams S
- Meier T
- Melissinos A
- Mendell G
- Mercer RA
- Meshkov S
- Messaritaki E
- Messenger CJ
- Meyers D
- Mikhailov E
- Miller P
- Mitra S
- Mitrofanov VP
- Mitselmakher G
- Mittleman R
- Miyakawa O
- Mohanty S
- Moody V
- Moreno G
- Mossavi K
- MowLowry C
- Moylan A
- Mudge D
- Mueller G
- Mukherjee S
- Muller-Ebhardt H
- Munch J
- Murray P
- Myers E
- Myers J
- Nash T
- Newton G
- Nishizawa A
- Numata K
- O'Reilly B
- O'Shaughnessy R
- Ottaway DJ
- Overmier H
- Owen BJ
- Paik HJ
- Pan Y
- Papa MA
- Parameshwaraiah V
- Patel P
- Pedraza M
- Penn S
- Pierro V
- Pinto IM
- Pitkin M
- Pletsch H
- Plissi MV
- Postiglione F
- Prix R
- Quetschke V
- Raab F
- Rabeling D
- Radkins H
- Rahkola R
- Rainer N
- Rakhmanov M
- Ramsuder M
- Rawlins K
- Ray-Majumder S
- Re V
- Rehbein H
- Reid S
- Reitze DH
- Ribichini L
- Riesen R
- Riles K
- Rivera B
- Robertson NA
- Robinson C
- Robinson EL
- Roddy S
- Rodriguez A
- Rogan AM
- Rollins J
- Romano JD
- Romie J
- Route R
- Rowan S
- Rudiger A
- Ruet L
- Russell P
- Ryan K
- Sakata S
- Samidi M
- Sandberg V
- Sannibale V
- Saraf S
- Sarin P
- Sathyaprakash BS
- Sato S
- Saulson PR
- Savage R
- Savov P
- Schediwy S
- Schilling R
- Schnabel R
- Schofield R
- Schutz BF
- Schwinberg P
- Scott SM
- Searle AC
- Sears B
- Seifert F
- Sellers D
- Sengupta AS
- Shawhan P
- Shoemaker DH
- Sibley A
- Sidles JA
- Siemens X
- Sigg D
- Sinha S
- Sintes AM
- Slagmolen BJJ
- Slutsky J
- Smith JR
- Smith MR
- Somiya K
- Strain KA
- Strom DM
- Stuver A
- Summerscales TZ
- Sun KX
- Sung M
- Sutton PJ
- Takahashi H
- Tanner DB
- Tarallo M
- Taylor R
- Taylor R
- Thacker J
- Thorne KA
- Thorne KS
- Thuring A
- Tokmakov KV
- Torres C
- Torrie C
- Traylor G
- Trias M
- Tyler W
- Ugolini D
- Ungarelli C
- Urbanek K
- Vahlbruch H
- Vallisneri M
- Van Den Broeck C
- Varvella M
- Vass S
- Vecchio A
- Veitch J
- Veitch P
- Villar A
- Vorvick C
- Vyachanin SP
- Waldman SJ
- Wallace L
- Ward H
- Ward R
- Watts K
- Weaver J
- Webber D
- Weber A
- Weidner A
- Weinert M
- Weinstein A
- Weiss R
- Wen S
- Wette K
- Whelan JT
- Whitbeck DM
- Whitcomb SE
- Whiting BF
- Wilkinson C
- Willems PA
- Williams L
- Willke B
- Wilmut I
- Winkler W
- Wipf CC
- Wise S
- Wiseman AG
- Woan G
- Woods D
- Wooley R
- Worden J
- Wu W
- Yakushin I
- Yamamoto H
- Yan Z
- Yoshida S
- Yunes N
- Zanolin M
- Zhang J
- Zhang L
- Zhang P
- Zhao C
- Zotov N
- Zucker M
- zur Muhlen H
- Zweizig J
- Publication venue
- Publication date
- 01/01/2008
- Field of study
First cross-correlation analysis of interferometric and resonant-bar gravitational-wave data for stochastic backgrounds (vol 76, art no 022001, 2007)
- Author
- Abbott B
- Abbott R
- Adhikari R
- Agresti J
- Ajith P
- ALLEGRO Collaboration
- Allen B
- Amin R
- Anderson SB
- Anderson WG
- Arain M
- Araya M
- Armandula H
- Ashley M
- Aston S
- Aufmuth P
- Aulbert C
- Babak S
- Ballmer S
- Bantilan H
- Barish BC
- Barker C
- Barker D
- Barr B
- Barriga P
- Barton MA
- Bayer K
- Belczynski K
- Betzwieser J
- Beyersdorf PT
- Bhawal B
- Bilenko IA
- Billingsley G
- Biswas R
- Black E
- Blackburn K
- Blackburn L
- Blair D
- Bland B
- Bogenstahl J
- Bogue L
- Bork R
- Boschi V
- Bose S
- Brady PR
- Braginsky VB
- Brau JE
- Brinkmann M
- Brooks A
- Brown DA
- Bullington A
- Bunkowski A
- Buonanno A
- Burgamy M
- Burmeister O
- Busby D
- Byer RL
- Cadonati L
- Cagnoli G
- Camp JB
- Cannizzo J
- Cannon K
- Cantley CA
- Cao J
- Cardenas L
- Casey MM
- Castaldi G
- Cepeda C
- Chalkey E
- Charlton P
- Chatterji S
- Chelkowski S
- Chen Y
- Chiadini F
- Chin D
- Chin E
- Chow J
- Christensen N
- Clark J
- Cochrane P
- Cokelaer T
- Colacino CN
- Coldwell R
- Conte R
- Cook D
- Corbitt T
- Coward D
- Coyne D
- Creighton JDE
- Creighton TD
- Croce RP
- Crooks DRM
- Cruise AM
- Cumming A
- D'Ambrosio E
- Dalrymple J
- Danzmann K
- Davies G
- de la Jordana LS
- Debra D
- Degallaix J
- Degree M
- Demma T
- Dergachev V
- Desai S
- DeSalvo R
- Dhurandhar S
- Di Credico A
- Diaz M
- Dickson J
- Diederichs G
- Dietz A
- Doomes EE
- Drever RWP
- Dumas JC
- Dupuis RJ
- Dwyer JG
- Ehrens P
- Espinoza E
- Etzel T
- Evans M
- Evans T
- Fairhurst S
- Fan Y
- Fazi D
- Fejer MM
- Finn LS
- Fiumara V
- Fotopoulos N
- Franzen A
- Franzen KY
- Freise A
- Frey R
- Fricke T
- Fritschel P
- Frolov VV
- Fyffe M
- Galdi V
- Garofoli J
- Gholami I
- Giaime JA
- Giampanis S
- Giardina KD
- Goda K
- Goetz E
- Goggin L
- Gonzalez G
- Gossler S
- Grant A
- Gras S
- Gray C
- Gray M
- Greenhalgh J
- Gretarsson AM
- Grosso R
- Grote H
- Grunewald S
- Guenther M
- Gustafson R
- Hage B
- Hamilton WO
- Hammer D
- Hanna C
- Hanson J
- Harms J
- Harry G
- Harstad E
- Hayler T
- Heefner J
- Heng IS
- Heptonstall A
- Heurs M
- Hewitson M
- Hild S
- Hirose E
- Hoak D
- Hosken D
- Hough J
- Howell E
- Hoyland D
- Huttner SH
- Ingram D
- Innerhofer E
- Ito M
- Itoh Y
- Ivanov A
- Jackrel D
- Johnson B
- Johnson WW
- Jones DI
- Jones G
- Jones R
- Ju L
- Kalmus P
- Kalogera V
- Kasprzyk D
- Katsavounidis E
- Kawabe K
- Kawamura S
- Kawazoe F
- Kells W
- Keppel DG
- Khalili FY
- Kim C
- King P
- Kissel JS
- Klimenko S
- Kokeyama K
- Kondrashov V
- Kopparapu RK
- Kozak D
- Krishnan B
- Kwee P
- Lam PK
- Landry M
- Lantz B
- Lazzarini A
- Lee B
- Lei M
- Leiner J
- Leonhardt V
- Leonor I
- Libbrecht K
- LIGO Sci Collaboration
- Lindquist P
- Lockerbie NA
- Longo M
- Lormand M
- Lubinski M
- Luck H
- Machenschalk B
- MacInnis M
- Mageswaran M
- Mailand K
- Malec M
- Mandic V
- Marano S
- Marka S
- Markowitz J
- Maros E
- Martin I
- Marx JN
- Mason K
- Matone L
- Matta V
- Mavalvala N
- McCarthy R
- McCaulley BJ
- McClelland DE
- McGuire SC
- McHugh M
- McKenzie K
- McNabb JWC
- McWilliams S
- Meier T
- Melissinos A
- Mendell G
- Mercer RA
- Meshkov S
- Messaritaki E
- Messenger CJ
- Meyers D
- Mikhailov E
- Miller P
- Mitra S
- Mitrofanov VP
- Mitselmakher G
- Mittleman R
- Miyakawa O
- Mohanty S
- Moody V
- Moreno G
- Mossavi K
- MowLowry C
- Moylan A
- Mudge D
- Mueller G
- Mukherjee S
- Muller-Ebhardt H
- Munch J
- Murray P
- Myers E
- Myers J
- Nash T
- Newton G
- Nishizawa A
- Numata K
- O'Reilly B
- O'Shaughnessy R
- Ottaway DJ
- Overmier H
- Owen BJ
- Paik HJ
- Pan Y
- Papa MA
- Parameshwaraiah V
- Patel P
- Pedraza M
- Penn S
- Pierro V
- Pinto IM
- Pitkin M
- Pletsch H
- Plissi MV
- Postiglione F
- Prix R
- Quetschke V
- Raab F
- Rabeling D
- Radkins H
- Rahkola R
- Rainer N
- Rakhmanov M
- Ramsuder M
- Rawlins K
- Ray-Majumder S
- Re V
- Rehbein H
- Reid S
- Reitze DH
- Ribichini L
- Riesen R
- Riles K
- Rivera B
- Robertson NA
- Robinson C
- Robinson EL
- Roddy S
- Rodriguez A
- Rogan AM
- Rollins J
- Romano JD
- Romie J
- Route R
- Rowan S
- Rudiger A
- Ruet L
- Russell P
- Ryan K
- Sakata S
- Samidi M
- Sandberg V
- Sannibale V
- Saraf S
- Sarin P
- Sathyaprakash BS
- Sato S
- Saulson PR
- Savage R
- Savov P
- Schediwy S
- Schilling R
- Schnabel R
- Schofield R
- Schutz BF
- Schwinberg P
- Scott SM
- Searle AC
- Sears B
- Seifert F
- Sellers D
- Sengupta AS
- Shawhan P
- Shoemaker DH
- Sibley A
- Sidles JA
- Siemens X
- Sigg D
- Sinha S
- Sintes AM
- Slagmolen BJJ
- Slutsky J
- Smith JR
- Smith MR
- Somiya K
- Strain KA
- Strom DM
- Stuver A
- Summerscales TZ
- Sun KX
- Sung M
- Sutton PJ
- Takahashi H
- Tanner DB
- Tarallo M
- Taylor R
- Taylor R
- Thacker J
- Thorne KA
- Thorne KS
- Thuring A
- Tokmakov KV
- Torres C
- Torrie C
- Traylor G
- Trias M
- Tyler W
- Ugolini D
- Ungarelli C
- Urbanek K
- Vahlbruch H
- Vallisneri M
- Van Den Broeck C
- Varvella M
- Vass S
- Vecchio A
- Veitch J
- Veitch P
- Villar A
- Vorvick C
- Vyachanin SP
- Waldman SJ
- Wallace L
- Ward H
- Ward R
- Watts K
- Weaver J
- Webber D
- Weber A
- Weidner A
- Weinert M
- Weinstein A
- Weiss R
- Wen S
- Wette K
- Whelan JT
- Whitbeck DM
- Whitcomb SE
- Whiting BF
- Wilkinson C
- Willems PA
- Williams L
- Willke B
- Wilmut I
- Winkler W
- Wipf CC
- Wise S
- Wiseman AG
- Woan G
- Woods D
- Wooley R
- Worden J
- Wu W
- Yakushin I
- Yamamoto H
- Yan Z
- Yoshida S
- Yunes N
- Zanolin M
- Zhang J
- Zhang L
- Zhang P
- Zhao C
- Zotov N
- Zucker M
- zur Muhlen H
- Zweizig J
- Publication venue
- Publication date
- 01/01/2007
- Field of study
Data from the LIGO Livingston interferometer and the ALLEGRO resonant-bar detector, taken during LIGO’s fourth science run, were examined for cross correlations indicative of a stochastic gravitational-wave background in the frequency range 850–950 Hz, with most of the sensitivity arising between 905 and 925 Hz. ALLEGRO was operated in three different orientations during the experiment to modulate the relative sign of gravitational-wave and environmental correlations. No statistically significant correlations were seen in any of the orientations, and the results were used to set a Bayesian 90% confidence level upper limit of Ωgw(f)≤1.02, which corresponds to a gravitational-wave strain at 915 Hz of 1.5×10-23 Hz-1/2. In the traditional units of h1002Ωgw(f), this is a limit of 0.53, 2 orders of magnitude better than the previous direct limit at these frequencies. The method was also validated with successful extraction of simulated signals injected in hardware and software