Proves quantitative Einstein relation with explicit quenched algebraic rate for reversible diffusions in random environments.
Thermal agitation of electric charge in con ductors
4 Pith papers cite this work. Polarity classification is still indexing.
4
Pith papers citing it
years
2026 4verdicts
UNVERDICTED 4representative citing papers
The work develops an analytical framework for block-error rate and goodput in RIS-assisted finite blocklength communications that accounts for RIS thermal noise, showing that neglecting it overestimates reliability especially as the number of elements grows.
Tip-sample interaction noise in ambient DAFM arises from stochastic nanoscopic liquid neck formation and rupture, providing chemical contrast complementary to KPFM.
Passive RIS elements produce thermal noise that substantially affects outage probability and throughput, requiring revised analytical models.
citing papers explorer
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Quantitative Einstein relation for reversible diffusions in a random environment
Proves quantitative Einstein relation with explicit quenched algebraic rate for reversible diffusions in random environments.
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Rethinking Passive RIS: Finite Blocklength Reliability Analysis Under Thermal Noise
The work develops an analytical framework for block-error rate and goodput in RIS-assisted finite blocklength communications that accounts for RIS thermal noise, showing that neglecting it overestimates reliability especially as the number of elements grows.
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Deciphering Noise in tip--sample Interactions: Insights into Nanoscale Dynamics
Tip-sample interaction noise in ambient DAFM arises from stochastic nanoscopic liquid neck formation and rupture, providing chemical contrast complementary to KPFM.
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Passive RIS Is Not Silent: Revisiting Performance Limits Under Thermal Noise
Passive RIS elements produce thermal noise that substantially affects outage probability and throughput, requiring revised analytical models.