time constant Search Results


auditory time constants: a paradox?  (Verlag GmbH)
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Verlag GmbH auditory time constants: a paradox?
Auditory Time Constants: A Paradox?, supplied by Verlag GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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weighted decay time constant (weighted)  (Huntsman International LLC)
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Huntsman International LLC weighted decay time constant (weighted)
Weighted Decay Time Constant (Weighted), supplied by Huntsman International LLC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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first voltage distribution time constant circuit  (BioSignal Group)
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BioSignal Group first voltage distribution time constant circuit
First Voltage Distribution Time Constant Circuit, supplied by BioSignal Group, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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passive bilateral control of teleoperators under constant time-delay  (Dongjun Technology Co Ltd)
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Dongjun Technology Co Ltd passive bilateral control of teleoperators under constant time-delay
Passive Bilateral Control Of Teleoperators Under Constant Time Delay, supplied by Dongjun Technology Co Ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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asymmetric pulse frequency modulation with constant on-time for series resonant converter  (IEEE Access)
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IEEE Access asymmetric pulse frequency modulation with constant on-time for series resonant converter
Asymmetric Pulse Frequency Modulation With Constant On Time For Series Resonant Converter, supplied by IEEE Access, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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linear 4-channel constant flow/constant time smoking machine csm 10  (Filtrona Richmond)
90
Filtrona Richmond linear 4-channel constant flow/constant time smoking machine csm 10
Linear 4 Channel Constant Flow/Constant Time Smoking Machine Csm 10, supplied by Filtrona Richmond, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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active electrodes (sampling rate: 1000 hz, time constant: 3 s)  (ANT Neuro)
90
ANT Neuro active electrodes (sampling rate: 1000 hz, time constant: 3 s)
Active Electrodes (Sampling Rate: 1000 Hz, Time Constant: 3 S), supplied by ANT Neuro, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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decay time constants  (Strube GmbH Co KG)
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Strube GmbH Co KG decay time constants
Decay Time Constants, supplied by Strube GmbH Co KG, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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tn1246 technical note: digital multiphase constant-on-time regulator based on voltage controlled oscillator  (STMicroelectronics Pte)
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STMicroelectronics Pte tn1246 technical note: digital multiphase constant-on-time regulator based on voltage controlled oscillator
Tn1246 Technical Note: Digital Multiphase Constant On Time Regulator Based On Voltage Controlled Oscillator, supplied by STMicroelectronics Pte, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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photomultiplier tube (pmt) with a 0.5-ms time constant  (Hamamatsu)
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Hamamatsu photomultiplier tube (pmt) with a 0.5-ms time constant
Photomultiplier Tube (Pmt) With A 0.5 Ms Time Constant, supplied by Hamamatsu, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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ac track circuit of a constant warning time device  (Siemens AG)
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Siemens AG ac track circuit of a constant warning time device
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time constant (τ) of the decay of the oscillation  (Huntsman International LLC)
90
Huntsman International LLC time constant (τ) of the decay of the oscillation
Exogenous and endogenous NPY receptor activation suppresses thalamic network oscillations. A, Contour plot (A1) and representative multiunit recordings (A2) showing effects of NPY perfusion on intrathalamic rhythmic oscillations in RT of a rat thalamic slice exposed to bicuculline (10 μm). A1, Contour plot representing ratemeter of extracellular spikes. The left vertical bar shows time of perfusion with control solution (open bar), NPY (black bar), and after washout (gray bar). The x-axis represents time within each evoked <t>oscillation.</t> The y-axis represents the time course throughout the experiment (i.e., Pre-drug, NPY, Wash). The z-axis represents the spike intensity during a single evoked oscillation; warmer color levels correspond to a higher frequency of firing. A2, Each trace shows oscillatory burst responses to a single extracellular stimulus in control solution (bottom, black trace), during a 200 nm NPY application (middle, gray), and 10 min after drug washout (top, black). The vertical dashed lines indicate timing of late recurrent bursts in control conditions. The gray arrows point to bursts in NPY that are delayed and reduced in number per response compared with controls. B1, B2, Contour plot (B1) and extracellular multiunit recordings of oscillatory activity (B2) in control solution (bottom), during 20 nm BIBP3226 application (middle), and after washout (top) in another rat thalamic slice. The vertical dashed lines indicate the time at which bursts occurred in control conditions (bottom). BIBP3226 speeds the oscillation and increases the number of multiunit bursts in the oscillatory response (gray arrows in middle trace). C, Autocorrelograms of the experiments of A1 and B1 showing decreased overall activity (amplitude of central peak) and synchrony (decreased peak to valley ratio) during application of NPY (thin arrow) and increased activity and synchrony during application of BIBP3226 (thick line arrow). Black curve, Control. D, Summary of the effects of NPY (gray bars; n = 7) and BIBP3226 (black bars; n = 11) on network oscillations. D1, The number of spikes per episode (spike count), normalized against controls. D2, Time constant (τ) of the decay of the oscillation (Huntsman et al., 1999) normalized against controls. *p < 0.05; **p < 0.01 for drug condition versus control.
Time Constant (τ) Of The Decay Of The Oscillation, supplied by Huntsman International LLC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Exogenous and endogenous NPY receptor activation suppresses thalamic network oscillations. A, Contour plot (A1) and representative multiunit recordings (A2) showing effects of NPY perfusion on intrathalamic rhythmic oscillations in RT of a rat thalamic slice exposed to bicuculline (10 μm). A1, Contour plot representing ratemeter of extracellular spikes. The left vertical bar shows time of perfusion with control solution (open bar), NPY (black bar), and after washout (gray bar). The x-axis represents time within each evoked oscillation. The y-axis represents the time course throughout the experiment (i.e., Pre-drug, NPY, Wash). The z-axis represents the spike intensity during a single evoked oscillation; warmer color levels correspond to a higher frequency of firing. A2, Each trace shows oscillatory burst responses to a single extracellular stimulus in control solution (bottom, black trace), during a 200 nm NPY application (middle, gray), and 10 min after drug washout (top, black). The vertical dashed lines indicate timing of late recurrent bursts in control conditions. The gray arrows point to bursts in NPY that are delayed and reduced in number per response compared with controls. B1, B2, Contour plot (B1) and extracellular multiunit recordings of oscillatory activity (B2) in control solution (bottom), during 20 nm BIBP3226 application (middle), and after washout (top) in another rat thalamic slice. The vertical dashed lines indicate the time at which bursts occurred in control conditions (bottom). BIBP3226 speeds the oscillation and increases the number of multiunit bursts in the oscillatory response (gray arrows in middle trace). C, Autocorrelograms of the experiments of A1 and B1 showing decreased overall activity (amplitude of central peak) and synchrony (decreased peak to valley ratio) during application of NPY (thin arrow) and increased activity and synchrony during application of BIBP3226 (thick line arrow). Black curve, Control. D, Summary of the effects of NPY (gray bars; n = 7) and BIBP3226 (black bars; n = 11) on network oscillations. D1, The number of spikes per episode (spike count), normalized against controls. D2, Time constant (τ) of the decay of the oscillation (Huntsman et al., 1999) normalized against controls. *p < 0.05; **p < 0.01 for drug condition versus control.

Journal: The Journal of Neuroscience

Article Title: Target-Specific Neuropeptide Y-Ergic Synaptic Inhibition and Its Network Consequences within the Mammalian Thalamus

doi: 10.1523/JNEUROSCI.23-29-09639.2003

Figure Lengend Snippet: Exogenous and endogenous NPY receptor activation suppresses thalamic network oscillations. A, Contour plot (A1) and representative multiunit recordings (A2) showing effects of NPY perfusion on intrathalamic rhythmic oscillations in RT of a rat thalamic slice exposed to bicuculline (10 μm). A1, Contour plot representing ratemeter of extracellular spikes. The left vertical bar shows time of perfusion with control solution (open bar), NPY (black bar), and after washout (gray bar). The x-axis represents time within each evoked oscillation. The y-axis represents the time course throughout the experiment (i.e., Pre-drug, NPY, Wash). The z-axis represents the spike intensity during a single evoked oscillation; warmer color levels correspond to a higher frequency of firing. A2, Each trace shows oscillatory burst responses to a single extracellular stimulus in control solution (bottom, black trace), during a 200 nm NPY application (middle, gray), and 10 min after drug washout (top, black). The vertical dashed lines indicate timing of late recurrent bursts in control conditions. The gray arrows point to bursts in NPY that are delayed and reduced in number per response compared with controls. B1, B2, Contour plot (B1) and extracellular multiunit recordings of oscillatory activity (B2) in control solution (bottom), during 20 nm BIBP3226 application (middle), and after washout (top) in another rat thalamic slice. The vertical dashed lines indicate the time at which bursts occurred in control conditions (bottom). BIBP3226 speeds the oscillation and increases the number of multiunit bursts in the oscillatory response (gray arrows in middle trace). C, Autocorrelograms of the experiments of A1 and B1 showing decreased overall activity (amplitude of central peak) and synchrony (decreased peak to valley ratio) during application of NPY (thin arrow) and increased activity and synchrony during application of BIBP3226 (thick line arrow). Black curve, Control. D, Summary of the effects of NPY (gray bars; n = 7) and BIBP3226 (black bars; n = 11) on network oscillations. D1, The number of spikes per episode (spike count), normalized against controls. D2, Time constant (τ) of the decay of the oscillation (Huntsman et al., 1999) normalized against controls. *p < 0.05; **p < 0.01 for drug condition versus control.

Article Snippet: D2 , Time constant (τ) of the decay of the oscillation ( Huntsman et al., 1999 ) normalized against controls.

Techniques: Activation Assay, Control, Activity Assay

Effects of NPY on bicuculline-induced evoked thalamic oscillations in vitro

Journal: The Journal of Neuroscience

Article Title: Target-Specific Neuropeptide Y-Ergic Synaptic Inhibition and Its Network Consequences within the Mammalian Thalamus

doi: 10.1523/JNEUROSCI.23-29-09639.2003

Figure Lengend Snippet: Effects of NPY on bicuculline-induced evoked thalamic oscillations in vitro

Article Snippet: D2 , Time constant (τ) of the decay of the oscillation ( Huntsman et al., 1999 ) normalized against controls.

Techniques: Control

Effects of BIBP3226 on bicuculline-induced evoked thalamic oscillations in vitro

Journal: The Journal of Neuroscience

Article Title: Target-Specific Neuropeptide Y-Ergic Synaptic Inhibition and Its Network Consequences within the Mammalian Thalamus

doi: 10.1523/JNEUROSCI.23-29-09639.2003

Figure Lengend Snippet: Effects of BIBP3226 on bicuculline-induced evoked thalamic oscillations in vitro

Article Snippet: D2 , Time constant (τ) of the decay of the oscillation ( Huntsman et al., 1999 ) normalized against controls.

Techniques: Control