论文信息 - Construction of rugged, ultrastable optical assemblies with optical component alignment at the few microradian level.

Construction of rugged, ultrastable optical assemblies with optical component alignment at the few microradian level.

A method for constructing quasimonolithic, precision-aligned optical assemblies is presented. Hydroxide-catalysis bonding is used, adapted to allow optimization of component fine alignment prior to the bond setting. We demonstrate the technique by bonding a fused silica mirror substrate to a fused silica baseplate. In-plane component placement at the submicrometer level is achieved, resulting in angular control of a reflected laser beam at the sub-10-μrad level. Within the context of the LISA Pathfinder mission, the technique has been demonstrated as suitable for use in space-flight applications. It is expected that there will also be applications in a wide range of areas where accuracy, stability, and strength of optical assemblies are important.

[1] Ulrich Johann,et al. LTP interferometer—noise sources and performance , 2005 .

[2] Christian J. Killow,et al. Hydroxide-catalysis bonding for stable optical systems for space , 2005 .

[3] S. Rowan,et al. Initial interferometric pre-investigations for LISA , 2009 .

[4] E. Fitzsimons. Techniques for precision interferometry in space , 2010 .

[5] Walter Fichter,et al. LISA Pathfinder: mission and status , 2011 .

[6] Badr N. Alsuwaidan,et al. Gravity Probe B: final results of a space experiment to test general relativity. , 2011, Physical review letters.

[7] J. Hough. Long baseline gravitational wave detectors-status and developments , 2011 .

[8] Bernard F. Schutz,et al. Low-frequency gravitational-wave science with eLISA/NGO , 2012, 1202.0839.

[9] Michael Perreur-Lloyd,et al. Precision absolute positional measurement of laser beams. , 2013, Applied optics.