High-speed low-light in vivo two-photon voltage imaging of large neuronal populations
Monitoring spiking activity across large neuronal populations at behaviorally relevant
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
High-speed low-light in vivo two-photon voltage imaging of large neuronal populations
J Platisa, X Ye, AM Ahrens, C Liu, IA Chen… - Nature …, 2023 - pubmed.ncbi.nlm.nih.gov
Monitoring spiking activity across large neuronal populations at behaviorally relevant
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
High-speed low-light in vivo two-photon voltage imaging of large neuronal populations.
J Platisa, X Ye, AM Ahrens, C Liu, IA Chen… - Nature …, 2023 - europepmc.org
Monitoring spiking activity across large neuronal populations at behaviorally relevant
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
[HTML][HTML] High-speed low-light in vivo two-photon voltage imaging of large neuronal populations
J Platisa, X Ye, AM Ahrens, C Liu, IA Chen… - Nature …, 2023 - ncbi.nlm.nih.gov
Monitoring spiking activity across large neuronal populations at behaviorally relevant
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
High-speed low-light in vivo two-photon voltage imaging of large neuronal populations
J Platisa, X Ye, AM Ahrens, C Liu, IA Chen, IG Davison… - paper.sciencenet.cn
Monitoring spiking activity across large neuronal populations at behaviorally relevant
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
High-Speed Low-Light In Vivo Two-Photon Voltage Imaging of Large Neuronal Populations
J Platisa, X Ye, AM Ahrens, C Liu, IA Chen, IG Davison… - bioRxiv, 2021 - biorxiv.org
Monitoring spiking activity across large neuronal populations at behaviorally relevant
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
High-Speed Low-Light In Vivo Two-Photon Voltage Imaging of Large Neuronal Populations
J Platisa, X Ye, AM Ahrens, C Liu, IA Chen, IG Davison… - 2021 - europepmc.org
Monitoring spiking activity across large neuronal populations at behaviorally relevant
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
High-Speed Low-Light In Vivo Two-Photon Voltage Imaging of Large Neuronal Populations
J Platisa, X Ye, AM Ahrens, C Liu, IA Chen, IG Davison… - bioRxiv, 2021 - biorxiv.org
Monitoring spiking activity across large neuronal populations at behaviorally relevant
timescales is critical for understanding neural circuit function. Unlike calcium imaging …
timescales is critical for understanding neural circuit function. Unlike calcium imaging …