SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4306174860> ?p ?o ?g. }

Showing items 1 to 100 of ±131 with 100 items per page.

W4306174860 endingPage "62" @default.
W4306174860 startingPage "57" @default.
W4306174860 abstract "Optically levitated oscillators in high vacuum have excellent environmental isolation and low mass compared with conventional solid-state sensors, which makes them suitable for ultrasensitive force detection. The force resolution usually scales with the measurement bandwidth, which represents the ultimate detection capability of the system under ideal conditions if sufficient time is provided for measurement. However, considering the stability of a real system, a method based on the Allan variance is more reliable to evaluate the actual force detection performance. In this study, a levitated optomechanical system with a force detection sensitivity of 6.33 ± 1.62 zN/Hz1/2 was demonstrated. And for the first time, the Allan variance was introduced to evaluate the system stability due to the force sensitivity fluctuations. The force detection resolution of 166.40 ± 55.48 yN was reached at the optimal measurement time of 2751 s. The system demonstrated in this work has the best force detection performance in both sensitivity and resolution that have been reported so far for optically levitated particles. The reported high-sensitivity force detection system is an excellent candidate for the exploration of new physics such as fifth force searching, high-frequency gravitational waves detection, dark matter research and so on." @default.
W4306174860 created "2022-10-14" @default.
W4306174860 creator A5004190334 @default.
W4306174860 creator A5005199475 @default.
W4306174860 creator A5013190089 @default.
W4306174860 creator A5014623086 @default.
W4306174860 creator A5027422369 @default.
W4306174860 creator A5039030237 @default.
W4306174860 creator A5044550114 @default.
W4306174860 creator A5053968284 @default.
W4306174860 creator A5059959892 @default.
W4306174860 creator A5079074756 @default.
W4306174860 creator A5090993874 @default.
W4306174860 creator A5091296916 @default.
W4306174860 date "2023-01-01" @default.
W4306174860 modified "2023-10-11" @default.
W4306174860 title "Yoctonewton force detection based on optically levitated oscillator" @default.
W4306174860 cites W1987468789 @default.
W4306174860 cites W1992844008 @default.
W4306174860 cites W1992948850 @default.
W4306174860 cites W1997565155 @default.
W4306174860 cites W2002904235 @default.
W4306174860 cites W2049128466 @default.
W4306174860 cites W2052317989 @default.
W4306174860 cites W2074633245 @default.
W4306174860 cites W2082211203 @default.
W4306174860 cites W2087624408 @default.
W4306174860 cites W2100203957 @default.
W4306174860 cites W2109426336 @default.
W4306174860 cites W2122604253 @default.
W4306174860 cites W2124572694 @default.
W4306174860 cites W2131420149 @default.
W4306174860 cites W2159012223 @default.
W4306174860 cites W2163397074 @default.
W4306174860 cites W2170552223 @default.
W4306174860 cites W2191717384 @default.
W4306174860 cites W2294065457 @default.
W4306174860 cites W2338157870 @default.
W4306174860 cites W2338910567 @default.
W4306174860 cites W2350265622 @default.
W4306174860 cites W2526996018 @default.
W4306174860 cites W2760832335 @default.
W4306174860 cites W2782233308 @default.
W4306174860 cites W2790498505 @default.
W4306174860 cites W2906574129 @default.
W4306174860 cites W2907515452 @default.
W4306174860 cites W2950840788 @default.
W4306174860 cites W2967888827 @default.
W4306174860 cites W2999458734 @default.
W4306174860 cites W3003329189 @default.
W4306174860 cites W3003563372 @default.
W4306174860 cites W3045159838 @default.
W4306174860 cites W3094624754 @default.
W4306174860 cites W3101702874 @default.
W4306174860 cites W3106383346 @default.
W4306174860 cites W3106407127 @default.
W4306174860 cites W3194743276 @default.
W4306174860 cites W3204610656 @default.
W4306174860 cites W4211038586 @default.
W4306174860 cites W4214554157 @default.
W4306174860 doi "https://doi.org/10.1016/j.fmre.2022.09.021" @default.
W4306174860 hasPublicationYear "2023" @default.
W4306174860 type Work @default.
W4306174860 citedByCount "2" @default.
W4306174860 countsByYear W43061748602023 @default.
W4306174860 crossrefType "journal-article" @default.
W4306174860 hasAuthorship W4306174860A5004190334 @default.
W4306174860 hasAuthorship W4306174860A5005199475 @default.
W4306174860 hasAuthorship W4306174860A5013190089 @default.
W4306174860 hasAuthorship W4306174860A5014623086 @default.
W4306174860 hasAuthorship W4306174860A5027422369 @default.
W4306174860 hasAuthorship W4306174860A5039030237 @default.
W4306174860 hasAuthorship W4306174860A5044550114 @default.
W4306174860 hasAuthorship W4306174860A5053968284 @default.
W4306174860 hasAuthorship W4306174860A5059959892 @default.
W4306174860 hasAuthorship W4306174860A5079074756 @default.
W4306174860 hasAuthorship W4306174860A5090993874 @default.
W4306174860 hasAuthorship W4306174860A5091296916 @default.
W4306174860 hasBestOaLocation W43061748601 @default.
W4306174860 hasConcept C105795698 @default.
W4306174860 hasConcept C120665830 @default.
W4306174860 hasConcept C121332964 @default.
W4306174860 hasConcept C127413603 @default.
W4306174860 hasConcept C20198109 @default.
W4306174860 hasConcept C21200559 @default.
W4306174860 hasConcept C22679943 @default.
W4306174860 hasConcept C24326235 @default.
W4306174860 hasConcept C2776257435 @default.
W4306174860 hasConcept C2777079111 @default.
W4306174860 hasConcept C2983487018 @default.
W4306174860 hasConcept C33923547 @default.
W4306174860 hasConcept C41008148 @default.
W4306174860 hasConcept C5722023 @default.
W4306174860 hasConcept C74650414 @default.
W4306174860 hasConcept C76155785 @default.
W4306174860 hasConceptScore W4306174860C105795698 @default.
W4306174860 hasConceptScore W4306174860C120665830 @default.
W4306174860 hasConceptScore W4306174860C121332964 @default.