Centre for Quantum Information & Quantum Control and Institute for Optical Sciences, Department of Physics, University of Toronto, Toronto, Ontario, Canada.
Phys Rev Lett. 2012 Sep 7;109(10):100404. doi: 10.1103/PhysRevLett.109.100404. Epub 2012 Sep 6.
While there is a rigorously proven relationship about uncertainties intrinsic to any quantum system, often referred to as "Heisenberg's uncertainty principle," Heisenberg originally formulated his ideas in terms of a relationship between the precision of a measurement and the disturbance it must create. Although this latter relationship is not rigorously proven, it is commonly believed (and taught) as an aspect of the broader uncertainty principle. Here, we experimentally observe a violation of Heisenberg's "measurement-disturbance relationship", using weak measurements to characterize a quantum system before and after it interacts with a measurement apparatus. Our experiment implements a 2010 proposal of Lund and Wiseman to confirm a revised measurement-disturbance relationship derived by Ozawa in 2003. Its results have broad implications for the foundations of quantum mechanics and for practical issues in quantum measurement.
虽然任何量子系统都存在内在不确定性的严格证明关系,通常被称为“海森堡不确定性原理”,但海森堡最初是用测量精度与必须产生的干扰之间的关系来表述他的观点。虽然后一种关系没有得到严格证明,但它通常被认为(并教授)是更广泛的不确定性原理的一个方面。在这里,我们使用弱测量来描述量子系统在与测量仪器相互作用前后的特性,实验观察到了违反海森堡“测量-干扰关系”的情况。我们的实验实现了 Lund 和 Wiseman 于 2010 年提出的方案,以证实 Ozawa 于 2003 年推导出的修正测量-干扰关系。其结果对量子力学的基础和量子测量中的实际问题都有广泛的影响。