Weak measurement in the context of Quantum computation

⭐ Core Definition: Weak measurement

In quantum mechanics (and computation & information), weak measurement is a type of quantum measurement that results in an observer obtaining very little information about the system on average, but also disturbs the state very little. From Busch's theorem any quantum system is necessarily disturbed by measurement, but the amount of disturbance is described by a parameter called the measurement strength.

Weak measurement is a subset of the more general form of quantum measurement described by operators known as POVMs, where the strength of measurement is low. In the literature weak measurements are also known as unsharp, fuzzy, dull, noisy, approximate, and gentle measurements. Additionally weak measurements are often confused with the distinct but related concept of the weak value.

↓ Menu

Weak measurement in the context of T-symmetry

T-symmetry or time reversal symmetry is the theoretical symmetry of physical laws under the transformation of time reversal, $T:t\mapsto -t.$

Since the second law of thermodynamics states that entropy increases as time flows toward the future, in general, the macroscopic universe does not show symmetry under time reversal. In other words, time is said to be non-symmetric, or asymmetric, except for special equilibrium states when the second law of thermodynamics predicts the time symmetry to hold. However, quantum noninvasive measurements are predicted to violate time symmetry even in equilibrium, contrary to their classical counterparts, although this has not yet been experimentally confirmed.

View the full Wikipedia page for T-symmetry

↑ Return to Menu

Weak measurement in the context of Quantum computation

Weak measurement Study page number 1 of 1

Play TriviaQuestions Online!

Skip to study material about Weak measurement in the context of "Quantum computation"

⭐ Core Definition: Weak measurement

Weak measurement in the context of T-symmetry