Firing Rates Spikescycle Of A Phasic Rgc And A Class Iii Neuron

Firing Rates Spikescycle Of A Phasic Rgc And A Class Iii Neuron

Firing Rates Spikescycle Of A Phasic Rgc And A Class Iii Neuron
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First Spike Latency Of A Phasic Rgc And A Class Iii Neuron Under

First Spike Latency Of A Phasic Rgc And A Class Iii Neuron Under
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Firing Rate And Phasic Synaptic Charge Transfer A Firing Rate Plotted

Firing Rate And Phasic Synaptic Charge Transfer A Firing Rate Plotted
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A Phasic Firing Of Neurons Occurs In Response To A Reward

A Phasic Firing Of Neurons Occurs In Response To A Reward
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A Phasic Firing Of Neurons Occurs In Response To A Reward

A Phasic Firing Of Neurons Occurs In Response To A Reward
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Frontiers Phasic Neuronal Firing In The Rodent Nucleus Of The

Frontiers Phasic Neuronal Firing In The Rodent Nucleus Of The
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Features Of Class Iii Neurons A Fast Spike Firing In Response To A

Features Of Class Iii Neurons A Fast Spike Firing In Response To A
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Spike Counts Of The Three Types Of Rgc And The Three Classes Of Ml

Spike Counts Of The Three Types Of Rgc And The Three Classes Of Ml
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Simulated Repetitive Spiking Tonic Firing And Phasic Firing

Simulated Repetitive Spiking Tonic Firing And Phasic Firing
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Mean Firing Rate Spikessec Of Phasic A Sustained B Late

Mean Firing Rate Spikessec Of Phasic A Sustained B Late
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Temporal Frequency Tuning By Macaque Sc A Example Firing Rates And

Temporal Frequency Tuning By Macaque Sc A Example Firing Rates And
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Frontiers Control Of Phasic Firing By A Background Leak Current In

Frontiers Control Of Phasic Firing By A Background Leak Current In
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A The Firing Rate Averaged In 10 Sec Bins Of A Phasic Supraoptic

A The Firing Rate Averaged In 10 Sec Bins Of A Phasic Supraoptic
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Longer Fsl Decreases Spike Probability And Neuronal Firing A Traces

Longer Fsl Decreases Spike Probability And Neuronal Firing A Traces
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Neural Activations During Dual Task Performance Ad Firing Rates In

Neural Activations During Dual Task Performance Ad Firing Rates In
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Phasic And Tonic Firing Patterns In Sympathetic Neurons Download

Phasic And Tonic Firing Patterns In Sympathetic Neurons Download
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Firing Rates Spikescycle Of A Tonic Rgc And A Class I Neuron Under

Firing Rates Spikescycle Of A Tonic Rgc And A Class I Neuron Under
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Neurons In The Lc Dynamically Shift Between Tonic And Phasic Firing

Neurons In The Lc Dynamically Shift Between Tonic And Phasic Firing
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Necessity Of Oppositely Directed Subthreshold Currents To Explain

Necessity Of Oppositely Directed Subthreshold Currents To Explain
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Phasic Burst Firing Of A Dopaminergic Neuron Before And After

Phasic Burst Firing Of A Dopaminergic Neuron Before And After
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Phasic Input Drives An At1r Dependent Firing Rate Bifurcation A Firing

Phasic Input Drives An At1r Dependent Firing Rate Bifurcation A Firing
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Background Firing Rates Of Orbitofrontal Neurons Reflect Specific

Background Firing Rates Of Orbitofrontal Neurons Reflect Specific
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Average Firing Rate Vs Signal Amplitude For Different Noise Intensity

Average Firing Rate Vs Signal Amplitude For Different Noise Intensity
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A B Relation Between Firing Rate And Static Force For One Phasic Tonic

A B Relation Between Firing Rate And Static Force For One Phasic Tonic
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Persistent Firing In Lec Iii Neurons Is Differentially Modulated By

Persistent Firing In Lec Iii Neurons Is Differentially Modulated By
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The Ncm Contains Three Distinct Classes Of Neurons That Can Be Separate

The Ncm Contains Three Distinct Classes Of Neurons That Can Be Separate
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Quercetin Hyperpolarized Rgcs And Decreased The Firing Rate Ab

Quercetin Hyperpolarized Rgcs And Decreased The Firing Rate Ab
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Firing Rate Activity Of Neurons In The Pc Pfc L3 Pfc L5 And Mot

Firing Rate Activity Of Neurons In The Pc Pfc L3 Pfc L5 And Mot
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A Firing Rates Of Class 1class 2 Membership Neurons For A Single

A Firing Rates Of Class 1class 2 Membership Neurons For A Single
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Normalization Of Firing Rates In Snr Neurons A Each Row Includes Raw

Normalization Of Firing Rates In Snr Neurons A Each Row Includes Raw
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Retinal Ganglion Cell Rgc Spikes Are Used To Determine Space Time

Retinal Ganglion Cell Rgc Spikes Are Used To Determine Space Time
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Electrically Evoked Rgc Spikes Response Across Different Postnatal Age

Electrically Evoked Rgc Spikes Response Across Different Postnatal Age
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Firing Properties Of Synaptically Linked Neurons Figures Show

Firing Properties Of Synaptically Linked Neurons Figures Show
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Changes In Firing Rates Of Simultaneously Recorded Neurons And

Changes In Firing Rates Of Simultaneously Recorded Neurons And
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A Neuronal Spike Times Top And Firing Rate Histograms Firing Rate

A Neuronal Spike Times Top And Firing Rate Histograms Firing Rate
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