2015
DOI: 10.1103/physreva.92.032127
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Experimentally quantifying the advantages of weak-value-based metrology

Abstract: We experimentally investigate the relative advantages of implementing weak-value-based metrology versus standard methods. While the techniques outlined herein apply more generally, we measure small optical beam deflections both using a Sagnac interferometer with a monitored dark port (the weak-value-based technique), and by focusing the entire beam to a split detector (the standard technique). By introducing controlled external transverse detector modulations and transverse beam deflection momentum modulations… Show more

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Cited by 118 publications
(71 citation statements)
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“…The third inequality follows from the selection of the optimal initial state |i * by the standard measurement strategy. It is possible to get close to saturating these inequalities whilst maintaining a large weak value [22,23]. This means that almost all of the Fisher information may be concentrated into an unlikely or 'dark' detector mode.…”
Section: Optimal Protocolsmentioning
confidence: 99%
See 1 more Smart Citation
“…The third inequality follows from the selection of the optimal initial state |i * by the standard measurement strategy. It is possible to get close to saturating these inequalities whilst maintaining a large weak value [22,23]. This means that almost all of the Fisher information may be concentrated into an unlikely or 'dark' detector mode.…”
Section: Optimal Protocolsmentioning
confidence: 99%
“…From 2013 onwards, however, theoretical treatments of the weak value technique called into doubt whether there was any true advantage over standard strategies [17][18][19][20], especially from the point of view of parameter estimation. There were also a slew of theoretical [21,22] and experimental [23] papers arguing for the merits of weak value techniques. A review of these results is given in Ref.…”
Section: Introductionmentioning
confidence: 99%
“…The principal reason weak measurements have improved sensitivity is that they allow certain types of technical noise or other experimental limitations to be overcome, while still achieving the same sensitivity as ideal traditional measurement schemes [4,[24][25][26][27][28][29]. Previous theoretical work demonstrating the effectiveness of weak value amplification in reducing the negative effects of technical noise has been in what we term the weak value regime.…”
Section: Introductionmentioning
confidence: 99%
“…Simply put, the goal of a weak value experiment is to concentrate most of the information into a small fraction of the events, which are more easily detected, and ignore the rest. Although a large part of the relevant information can be retained in this way [130], the weak value method can only match the performance of a postselection-free method in the limit of an infinitely weak measurement [129]. On the other hand, if the relevant resource is the measured particles rather than the input particles (such as in optical schemes, since photons are cheap), then the postselection probability is irrelevant and the concentration of information implies that the weak-value method performs better [131].…”
Section: Weak Value Amplificationmentioning
confidence: 99%
“…On the more technical side, weak value amplification typically performs worse even in the presence of noise [129]. However, there are also some noise models (such as 1 f noise) where it is beneficial [130,133]. Finally, it might be the case that the optimal estimators (for the non-postselected experiment) cannot be implemented or that the initial state cannot be chosen optimally, in which case the optimal post-selection can still help.…”
mentioning
confidence: 99%