Time plays a crucial role in the intuitive understanding of the world around us. Within quantum mechanics, however, time is not usually treated as an observable quantity; it enters merely as a parameter in the laws of motion of physical systems. Here we take an operational approach to time. Towards this goal we consider quantum clocks, i.e., quantum systems that generate an observable time scale. We then study the quality of quantum clocks in terms of their ability to stay synchronised. To quantify this, we introduce the "Alternate Ticks Game" and analyse a few strategies pertinent to this game
We develop an abstract model of atomic clocks that describes the full dynamics of repeated synchroni...
Quantum mechanics has provided philosophers of science with many counterintuitive insights and inter...
The use of a relational time in quantum mechanics is a framework in which one promotes to quantum op...
Throughout the existence of humankind, people have organised their lives based on the sunrise and su...
This paper introduces the concept of time as a count of a count of changes or events that set up a l...
Timing is crucial in situations ranging from currency attacks, to product introductions, to starting...
In this paper we argue that the notion of time, whatever complicated and difficult to define as the ...
!is paper introduces the concept of time as a count of a count of changes or events that set up a lo...
The theory of relativity associates a proper time with each moving object via its world line. In qua...
Quantum mechanics imposes a fundamental trade-off between the accuracy of time measurements and the ...
The measurement of time durations or instants of ocurrence of events has been frequently modelled ``...
We characterize good clocks, which are naturally subject to fluctuations, in statistical terms. We a...
We present a perspective on quantum games that focuses on the physical aspects of the quan-tities th...
Clocks are among the most precise measurement devices ever built, but like anything else, they are b...
We introduce methods for clock synchronization that make use of the adiabatic exchange of nondegener...
We develop an abstract model of atomic clocks that describes the full dynamics of repeated synchroni...
Quantum mechanics has provided philosophers of science with many counterintuitive insights and inter...
The use of a relational time in quantum mechanics is a framework in which one promotes to quantum op...
Throughout the existence of humankind, people have organised their lives based on the sunrise and su...
This paper introduces the concept of time as a count of a count of changes or events that set up a l...
Timing is crucial in situations ranging from currency attacks, to product introductions, to starting...
In this paper we argue that the notion of time, whatever complicated and difficult to define as the ...
!is paper introduces the concept of time as a count of a count of changes or events that set up a lo...
The theory of relativity associates a proper time with each moving object via its world line. In qua...
Quantum mechanics imposes a fundamental trade-off between the accuracy of time measurements and the ...
The measurement of time durations or instants of ocurrence of events has been frequently modelled ``...
We characterize good clocks, which are naturally subject to fluctuations, in statistical terms. We a...
We present a perspective on quantum games that focuses on the physical aspects of the quan-tities th...
Clocks are among the most precise measurement devices ever built, but like anything else, they are b...
We introduce methods for clock synchronization that make use of the adiabatic exchange of nondegener...
We develop an abstract model of atomic clocks that describes the full dynamics of repeated synchroni...
Quantum mechanics has provided philosophers of science with many counterintuitive insights and inter...
The use of a relational time in quantum mechanics is a framework in which one promotes to quantum op...
Add to ORKG