by the “Laser Interferometry and Gravitational Wave Astronomy” department
Journal Article (54)
41.
Journal Article
96, 122005 (2017)
Demonstration of a switchable damping system to allow low-noise operation of high-Q low-mass suspension systems. Physical Review D 42.
Journal Article
42 (4), pp. 755 - 758 (2017)
Shot-noise-limited laser power stabilization for the AEI 10 m Prototype interferometer. Optics Letters 43.
Journal Article
42 (6), p. 1067 - 1067 (2017)
Shot-noise-limited laser power stabilization for the AEI 10 m Prototype interferometer: publisher’s note. Optics Letters 44.
Journal Article
34 , 145001 (2017)
Demonstration of the optical AC coupling technique at the advanced LIGO gravitational wave detector. Classical and quantum gravity 45.
Journal Article
96, 024006 (2017)
The most powerful astrophysical events: gravitational-wave peak luminosity of binary black holes as predicted by numerical relativity. Physical Review D 46.
Journal Article
88, 115008 (2017)
Huddle test measurement of a near Johnson noise limited geophone. Review of Scientific Instruments 47.
Journal Article
118, 143601 (2017)
Beating the standard sensitivity-bandwidth limit of cavity-enhanced interferometers with internal squeezed-light generation. Physical Review Letters 48.
Journal Article
48 (3), pp. 124 - 132 (2017)
Einsteins Fenster zum dunklen Universum: Der erste direkte Nachweis von Gravitationswellen. Physik in unserer Zeit 49.
Journal Article
56 (5), pp. 1495 - 1500 (2017)
Possible alternative acquisition scheme for the gravity recovery and climate experiment follow-on-type mission. Applied Optics 50.
Journal Article
95, 042005 (2017)
Searches for continuous gravitational waves from Scorpius X-1 and XTE J1751-305 in LIGO's sixth science run. Physical Review D 51.
Journal Article
Quantum back-action-evading measurement of motion in a negative mass reference frame. Nature, pp. 191 - 195 (2017)
52.
Journal Article
42 (4), pp. 751 - 754 (2017)
Higher-order Laguerre–Gauss modes in (non-) planar four-mirror cavities for future gravitational wave detectors. Optics Letters 53.
Journal Article
96, 022007 (2017)
Optical absorption of silicon nitride membranes at 1064 nm and at 1550 nm. Physical Review D 54.
Journal Article
88, 124501 (2017)
Effects of transients in LIGO suspensions on searches for gravitational waves. Review of Scientific Instruments Book Chapter (2)
55.
Book Chapter
Observation of Gravitational Waves from a Binary Black Hole Merger. In: Centennial of General Relativity: A Celebration, 061102, pp. 291 - 311. World Scientific, Singapur (2017)
56.
Book Chapter
66, pp. 263 - 374 (Eds. Arimondo , E.; Lin, C. C.; Yelin, S. F.). Elsevier, San Diego (2017)
Quantum Control of Optomechanical Systems. In: Advances in Atomic, Molecular, and Optical Physics, Vol. Conference Paper (21)
57.
Conference Paper
840, 012001 , (2017)
LISA Pathfinder: First steps to observing gravitational waves from space. 11th International LISA Symposium . Journal of Physics: Conference Series 58.
Conference Paper
840, 012038, (2017)
LISA Pathfinder closed-loop analysis: a model breakdown of the in-loop observables. 11th International LISA Symposium. Journal of Physics Conference Series 59.
Conference Paper
840, 012034, (2017)
LISA Pathfinder: Optical Metrology System monitoring during operations. 11th International LISA Symposium, Zurich, Switzerland, September 05, 2016 - September 09, 2016. Journal of Physics: Conference Series 60.
Conference Paper
840, 012036, (2017)
LISA Pathfinder: OPD loop characterisation. 11th International LISA Symposium, Zurich, Switzerland, September 05, 2016 - September 09, 2016. Journal of Physics: Conference Series