Hydroxide catalysis bonding for astronomical instruments

被引：31

作者：

van Veggel, Anna-Maria A. ^{[1
]}

Killow, Christian J. ^{[1
]}

机构：

[1] Univ Glasgow, Sch Phys & Astron Scottish Univ Phys Alliance, Inst Gravitat Res, Glasgow G12 8QQ, Lanark, Scotland

来源：

ADVANCED OPTICAL TECHNOLOGIES | 2014年 / 3卷 / 03期

基金：

英国科学技术设施理事会;

关键词：

gravitational wave detectors; hydroxide catalysis bonding (HCB); jointing; optical materials; telescopes;

D O I：

10.1515/aot-2014-0022

中图分类号：

O43 [光学];

学科分类号：

070207 ; 0803 ;

摘要：

Hydroxide catalysis bonding (HCB) as a jointing technique has been under development for astronomical applications since similar to 1998 (patented by D.-H. Gwo). It uses an aqueous hydroxide solution to form a chemical bond between oxide or oxidisable materials (e.g., SiO2, sapphire, silicon and SiC). It forms strong, extremely thin bonds, and is suitable for room temperature bonding, precision alignment, operation in ultra-low vacuum and down to temperatures of 2.5 K. It has been applied in the NASA satellite mission Gravity Probe B and in the ground-based gravitational wave (GW) detector GEO600. It will soon fly again on the ESA LISA Pathfinder mission and is currently being implemented in the Advanced LIGO and Virgo ground-based GW detectors. This technique is also of considerable interest for use in other astronomical fields and indeed more broadly, due to its desirable, and adjustable, combination of properties. This paper gives an overview of how HCB has been and can be applied in astronomical instruments, including an overview of the current literature on the properties of hydroxide catalysis bonds.

引用

页码：293 / 307

页数：15

共 77 条

[1] LIGO: the Laser Interferometer Gravitational-Wave Observatory
Abbott, B. P.
Abbott, R.
Adhikari, R.
Ajith, P.
Allen, B.
Allen, G.
Amin, R. S.
Anderson, S. B.
Anderson, W. G.
Arain, M. A.
Araya, M.
Armandula, H.
Armor, P.
Aso, Y.
Aston, S.
Aufmuth, P.
Aulbert, C.
Babak, S.
Baker, P.
Ballmer, S.
Barker, C.
Barker, D.
Barr, B.
Barriga, P.
Barsotti, L.
Barton, M. A.
Bartos, I.
Bassiri, R.
Bastarrika, M.
Behnke, B.
Benacquista, M.
Betzwieser, J.
Beyersdorf, P. T.
Bilenko, I. A.
Billingsley, G.
Biswas, R.
Black, E.
Blackburn, J. K.
Blackburn, L.
Blair, D.
Bland, B.
Bodiya, T. P.
Bogue, L.
Bork, R.
Boschi, V.
Bose, S.
Brady, P. R.
Braginsky, V. B.
Brau, J. E.
Bridges, D. O.
[J]. REPORTS ON PROGRESS IN PHYSICS, 2009, 72 (07)
[2] Commissioning status of the Virgo interferometer
Accadia, T.
Swinkels, B. L.
[J]. CLASSICAL AND QUANTUM GRAVITY, 2010, 27 (08)
[3] Status of Virgo
Acernese, F.
Alshourbagy, M.
Amico, P.
Antonucci, F.
Aoudia, S.
Astone, P.
Avino, S.
Baggio, L.
Ballardin, G.
Barone, F.
Barsotti, L.
Barsuglia, M.
Bauer, Th S.
Bigotta, S.
Birindelli, S.
Bizouard, M. A.
Boccara, C.
Bondu, F.
Bosi, L.
Braccini, S.
Bradaschia, C.
Brillet, A.
Brisson, V.
Buskulic, D.
Cagnoli, G.
Calloni, E.
Campagna, E.
Carbognani, F.
Cavalier, F.
Cavalieri, R.
Cella, G.
Cesarini, E.
Chassande-Mottin, E.
Clapson, A-C
Cleva, F.
Coccia, E.
Corda, C.
Corsi, A.
Cottone, F.
Coulon, J-P
Cuoco, E.
D'Antonio, S.
Dari, A.
Dattilo, V.
Davier, M.
De Rosa, R.
Del Prete, M.
Di Fiore, L.
Di Lieto, A.
Emilio, M. Di Paolo
[J]. CLASSICAL AND QUANTUM GRAVITY, 2008, 25 (11)
[4] Adhikari R., T1200031V3 LIGO
[5] Akselsen O. M. J., 1992, MAT SCI, V27, P569
[6] Low-frequency gravitational-wave science with eLISA/NGO
Amaro-Seoane, Pau
Aoudia, Sofiane
Babak, Stanislav
Binetruy, Pierre
Berti, Emanuele
Bohe, Alejandro
Caprini, Chiara
Colpi, Monica
Cornish, Neil J.
Danzmann, Karsten
Dufaux, Jean-Francois
Gair, Jonathan
Jennrich, Oliver
Jetzer, Philippe
Klein, Antoine
Lang, Ryan N.
Lobo, Alberto
Littenberg, Tyson
McWilliams, Sean T.
Nelemans, Gijs
Petiteau, Antoine
Porter, Edward K.
Schutz, Bernard F.
Sesana, Alberto
Stebbins, Robin
Sumner, Tim
Vallisneri, Michele
Vitale, Stefano
Volonteri, Marta
Ward, Henry
[J]. CLASSICAL AND QUANTUM GRAVITY, 2012, 29 (12)
[7] The LISA Pathfinder mission
Antonucci, F.
Armano, M.
Audley, H.
Auger, G.
Benedetti, M.
Binetruy, P.
Bogenstahl, J.
Bortoluzzi, D.
Bosetti, P.
Brandt, N.
Caleno, M.
Canizares, P.
Cavalleri, A.
Cesa, M.
Chmeissani, M.
Conchillo, A.
Congedo, G.
Cristofolini, I.
Cruise, M.
Danzmann, K.
De Marchi, F.
Diaz-Aguilo, M.
Diepholz, I.
Dixon, G.
Dolesi, R.
Dunbar, N.
Fauste, J.
Ferraioli, L.
Ferrone, V.
Fichter, W.
Fitzsimons, E.
Freschi, M.
Marin, A. Garcia
Marirrodriga, C. Garcia
Gerndt, R.
Gesa, L.
Gilbert, F.
Giardini, D.
Grimani, C.
Grynagier, A.
Guillaume, B.
Guzman, F.
Harrison, I.
Heinzel, G.
Hernandez, V.
Hewitson, M.
Hollington, D.
Hough, J.
Hoyland, D.
Hueller, M.
[J]. CLASSICAL AND QUANTUM GRAVITY, 2012, 29 (12)
[8] Update on quadruple suspension design for Advanced LIGO
Aston, S. M.
Barton, M. A.
Bell, A. S.
Beveridge, N.
Bland, B.
Brummitt, A. J.
Cagnoli, G.
Cantley, C. A.
Carbone, L.
Cumming, A. V.
Cunningham, L.
Cutler, R. M.
Greenhalgh, R. J. S.
Hammond, G. D.
Haughian, K.
Hayler, T. M.
Heptonstall, A.
Heefner, J.
Hoyland, D.
Hough, J.
Jones, R.
Kissel, J. S.
Kumar, R.
Lockerbie, N. A.
Lodhia, D.
Martin, I. W.
Murray, P. G.
O'Dell, J.
Plissi, M. V.
Reid, S.
Romie, J.
Robertson, N. A.
Rowan, S.
Shapiro, B.
Speake, C. C.
Strain, K. A.
Tokmakov, K. V.
Torrie, C.
van Veggel, A. A.
Vecchio, A.
Wilmut, I.
[J]. CLASSICAL AND QUANTUM GRAVITY, 2012, 29 (23)
[9] Silica research in Glasgow
Barr, BW
Cagnoli, G
Casey, MM
Clubley, D
Crooks, DRM
Danzmann, K
Ellife, EJ
Gossler, S
Grant, A
Grote, H
Heptonstall, A
Hough, J
Jennrich, O
Lück, H
McIntosh, SA
Newton, GP
Palmer, DA
Plissi, MV
Robertson, DI
Robertson, NA
Rowan, S
Skeldon, KD
Sneddon, P
Strain, KA
Torrie, CI
Ward, H
Willems, PA
Willke, B
Winkler, W
[J]. CLASSICAL AND QUANTUM GRAVITY, 2002, 19 (07) : 1655 - 1662
[10] Dependence of cryogenic strength of hydroxide catalysis bonded silicon on type of surface oxide
Beveridge, N. L.
van Veggel, A. A.
Cunningham, L.
Hough, J.
Martin, I. W.
Nawrodt, R.
Reid, S.
Rowan, S.
[J]. CLASSICAL AND QUANTUM GRAVITY, 2013, 30 (02)

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