Plot of the predicted power spectral density of fluorescence for an arbitrary fluorophore.

Plot of the predicted power spectral density of fluorescence for an arbitrary fluorophore.

<p>The spectrum is divided into its sub-Poisson and Poisson regions by the transition frequency located at f<sub>c</sub>.</p>

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Bibliographic Details
Main Author: Nicholas H. Vitale (20469289) (author)
Other Authors: Arjang Hassibi (20469292) (author), Hyongsok Tom Soh (2871164) (author), Boris Murmann (2225593) (author), Thomas H. Lee (17668290) (author)
Published: 2024
Subjects:
Space Science
Biological Sciences not elsewhere classified
Mathematical Sciences not elsewhere classified
Chemical Sciences not elsewhere classified
Physical Sciences not elsewhere classified
Information Systems not elsewhere classified
stochastic models presented
probability mass function
fluorophore &# 8217
system energy requirements
system complexity hurdles
optimal design strategies
key design tradeoffs
quantum state comprising
cw systems remain
given system
systems scale
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photophysical qualities
overcome cost
measurement speed
limited signal
inherent stochasticity
gold standard
gillespie algorithm
fluorescence signals
electronic structure
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