The AEI 10 m prototype interferometer facility is currently being constructed at the Albert Einstein Institute in Hannover, Germany. It aims to perform experiments for future gravitational wave detectors using advanced techniques. Seismically isolated benches are planned to be interferometrically interconnected and stabilized, forming a low-noise testbed inside a 100 m^3 ultra-high vacuum system. A well-stabilized high power laser will perform differential position readout of 100 g test masses in a 10 m suspended arm-cavity enhanced Michelson interferometer at the crossover of measurement (shot) noise and backaction (quantum radiation pressure) noise, the so-called Standard Quantum Limit (SQL). Such a sensitivity enables experiments in the highly topical field of macroscopic quantum mechanics. In this article we introduce the experimental facility and describe the methods employed, technical details of subsystems will be covered in future papers.
翻译:目前正在德国汉诺威阿尔伯特·爱因斯坦研究所建造AEI 10米原型干涉仪设施,目的是利用先进技术对未来的引力波探测器进行实验;计划地震孤立的长椅将进行干涉性连接和稳定,形成一个低噪音试验台,在100立方米3特高真空系统内进行试验;一个稳定的高功率激光器将在10米悬浮臂孔中,在10米悬浮式加固的Michelson干涉仪中,对测量(射线)噪音和反射(赤道辐射压力)噪音的交叉时,对100克试验质量进行不同位置的读取;这种敏感度使在高时的大型量量力机械领域进行实验;在本篇文章中,我们介绍实验设施并说明所采用的方法,今后的文件将涵盖次子的技术细节。
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