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Application of surface plasmon coupled emission to study of muscle
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Dive into the research topics of 'Application of surface plasmon coupled emission to study of muscle'. Together they form a unique fingerprint.
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Keyphrases
Actin
100%
Attoliter
50%
Coverslip
100%
Cross-bridge
100%
Detection Volume
50%
Distance Dependence
50%
Evanescent Wave
50%
Evanescent Wave Excitation
50%
Field Factor
50%
Fluorescently Labeled
50%
Fluorophore
50%
High numerical Aperture Objective
50%
High Refractive Index
50%
Laser Beams
50%
Lateral Dimension
50%
Mechanochemical Cycle
50%
Metal Interfaces
50%
Metal Layer
50%
Millisecond Interval
50%
Molecular Crowding
50%
Muscle Contraction
50%
Myosin Cross-bridges
50%
Near-field
50%
Noble Metals
50%
Plasmon Coupling
50%
Rotational Motion
100%
Single Cross
50%
Strong Dependence
50%
Surface Plasmon
50%
Surface Plasmon Resonance Angle
50%
Surface Plasmon-coupled Emission
100%
Temporal Measurements
50%
Timing Behavior
50%
Transition Dipole
50%
Engineering
Collect Data
25%
Evanescent
50%
Field Factor
25%
Fluorophore
25%
Laser Beams
25%
Metal Layer
25%
Millisecond
25%
Numerical Aperture
25%
Refractive Index
25%
Refractivity
25%
Rotational Motion
50%
Surface Plasmon
100%
Thin Layer
25%