According to quantum measurement theory, "speed meters" -- devices that measure the momentum, or speed, of free test masses -- are immune to the standard quantum limit (SQL). It is shown that a Sagnac-interferometer gravitational-wave detector is a speed meter and therefore in principle it can beat the SQL by large amounts over a wide band of frequencies. It is shown, further, that, when one ignores optical losses, a signal-recycled Sagnac interferometer with Fabry-Perot arm cavities has precisely the same performance, for the same circulating light power, as the Michelson speed-meter interferometer recently invented and studied by P. Purdue and the author. The influence of optical losses is not studied, but it is plausible that they be fairly unimportant for the Sagnac, as for other speed meters. With squeezed vacuum (squeeze factor $e^{-2R} = 0.1$) injected into its dark port, the recycled Sagnac can beat the SQL by a factor $ \sqrt{10} \simeq 3$ over the frequency band $10 {\rm Hz} \alt f \alt 150 {\rm Hz}$ using the same circulating power $I_c\sim 820$ kW as is used by the (quantum limited) second-generation Advanced LIGO interferometers -- if other noise sources are made sufficiently small. It is concluded that the Sagnac optical configuration, with signal recycling and squeezed-vacuum injection, is an attractive candidate for third-generation interferometric gravitational-wave detectors (LIGO-III and EURO).
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机译:根据量子测量理论,“速度计”(用于测量自由测试质量的动量或速度的设备)不受标准量子限制(SQL)的影响。结果表明,萨格纳克干涉仪重力波检测器是一种速度计,因此从原理上讲,它可以在很宽的频率范围内大大击败SQL。进一步显示,当人们忽略光损耗时,具有法布里-珀罗臂腔的信号回收萨格纳克干涉仪在相同的循环光功率下具有与最近发明和研究的迈克尔逊速度计干涉仪完全相同的性能。由P. Purdue和作者撰写。光损耗的影响尚未研究,但对于Sagnac而言,与其他测速仪相比,它们的重要性并不重要。通过向其暗端口注入压缩真空(压缩系数$ e ^ {-2R} = 0.1 $),回收的Sagnac可以在$ 10频带上以$ \ sqrt {10} \ simeq 3 $击败SQL。 rm Hz} \ alt f \ alt 150 {\ rm Hz} $使用与(量子受限)第二代高级LIGO干涉仪所使用的相同的循环功率$ I_c \ sim 820 $ kW-如果产生其他噪声源足够小。结论是,具有信号回收和压缩真空注入功能的Sagnac光学配置是第三代干涉式重力波探测器(LIGO-III和EURO)的诱人候选。
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