Quantum physics constrains the accuracy of joint measurements of incompatible observables. Here we test tight measurement-uncertainty relations using single photons. We implement two independent, idealized uncertainty-estimation methods, the three-state method and the weak-measurement method, and adapt them to realistic experimental conditions. Exceptional quantum state fidelities of up to 0.999 98(6) allow us to verge upon the fundamental limits of measurement uncertainty
Uncertainty relations in quantum mechanics express bounds on our ability to simultaneously obtain kn...
The use of prior information in order to avoid the standard joint-measurement uncertainty relation, ...
Heisenberg's uncertainty principle implies fundamental constraints on what properties of a quantum s...
Quantum physics constrains the accuracy of joint measurements of incompatible observables. Here we t...
Quantum metrology uses small changes in the output probabilities of a quantum measurement to estimat...
In standard formulations of the uncertainty principle, two fundamental features are typically cast a...
Two generalizations of a known approach to the joint measurement of position and momentum to the joi...
We investigate the optimal approximation to triple incompatible quantum measurements within the fram...
The uncertainty relations, pioneered by Werner Heisenberg nearly 90 years ago, set a fundamental lim...
Weak value measurements have been a real breakthrough in the quantum measurement framework. In parti...
A common knowledge suggests that trajectories of particles in quantum mechanics always have quantum ...
In this work we establish rigorously a measurement uncertainty relation (MUR) for three unbiased qub...
This thesis presents the results of a series of four photonic experiments on the topic of quantum me...
We investigate the measurement uncertainties of a triple of positive-operator-valued measures based ...
Measurement uncertainty relations are lower bounds on the errors of any approximate joint measuremen...
Uncertainty relations in quantum mechanics express bounds on our ability to simultaneously obtain kn...
The use of prior information in order to avoid the standard joint-measurement uncertainty relation, ...
Heisenberg's uncertainty principle implies fundamental constraints on what properties of a quantum s...
Quantum physics constrains the accuracy of joint measurements of incompatible observables. Here we t...
Quantum metrology uses small changes in the output probabilities of a quantum measurement to estimat...
In standard formulations of the uncertainty principle, two fundamental features are typically cast a...
Two generalizations of a known approach to the joint measurement of position and momentum to the joi...
We investigate the optimal approximation to triple incompatible quantum measurements within the fram...
The uncertainty relations, pioneered by Werner Heisenberg nearly 90 years ago, set a fundamental lim...
Weak value measurements have been a real breakthrough in the quantum measurement framework. In parti...
A common knowledge suggests that trajectories of particles in quantum mechanics always have quantum ...
In this work we establish rigorously a measurement uncertainty relation (MUR) for three unbiased qub...
This thesis presents the results of a series of four photonic experiments on the topic of quantum me...
We investigate the measurement uncertainties of a triple of positive-operator-valued measures based ...
Measurement uncertainty relations are lower bounds on the errors of any approximate joint measuremen...
Uncertainty relations in quantum mechanics express bounds on our ability to simultaneously obtain kn...
The use of prior information in order to avoid the standard joint-measurement uncertainty relation, ...
Heisenberg's uncertainty principle implies fundamental constraints on what properties of a quantum s...