12/b
👉 #Spatial/contextual information may arrive from regions with slower timescales (such as cortex), making them less susceptible to disruptions at the theta timescale. In contrast, the #precisely timed medial septal inputs coordinate the fast (< 125 ms) timing offsets b/w hippocampal neurons.
👉 #Spatial/contextual information may arrive from regions with slower timescales (such as cortex), making them less susceptible to disruptions at the theta timescale. In contrast, the #precisely timed medial septal inputs coordinate the fast (< 125 ms) timing offsets b/w hippocampal neurons.
September 17, 2025 at 7:33 PM
12/b
👉 #Spatial/contextual information may arrive from regions with slower timescales (such as cortex), making them less susceptible to disruptions at the theta timescale. In contrast, the #precisely timed medial septal inputs coordinate the fast (< 125 ms) timing offsets b/w hippocampal neurons.
👉 #Spatial/contextual information may arrive from regions with slower timescales (such as cortex), making them less susceptible to disruptions at the theta timescale. In contrast, the #precisely timed medial septal inputs coordinate the fast (< 125 ms) timing offsets b/w hippocampal neurons.
1/
🚨 New preprint! 🚨
Excited and proud (& a little nervous 😅) to share our latest work on the importance of #theta-timescale spiking during #locomotion in #learning. If you care about how organisms learn, buckle up. 🧵👇
📄 www.biorxiv.org/content/10.1...
💻 code + data 🔗 below 🤩
#neuroskyence
🚨 New preprint! 🚨
Excited and proud (& a little nervous 😅) to share our latest work on the importance of #theta-timescale spiking during #locomotion in #learning. If you care about how organisms learn, buckle up. 🧵👇
📄 www.biorxiv.org/content/10.1...
💻 code + data 🔗 below 🤩
#neuroskyence
September 17, 2025 at 7:33 PM
1/
🚨 New preprint! 🚨
Excited and proud (& a little nervous 😅) to share our latest work on the importance of #theta-timescale spiking during #locomotion in #learning. If you care about how organisms learn, buckle up. 🧵👇
📄 www.biorxiv.org/content/10.1...
💻 code + data 🔗 below 🤩
#neuroskyence
🚨 New preprint! 🚨
Excited and proud (& a little nervous 😅) to share our latest work on the importance of #theta-timescale spiking during #locomotion in #learning. If you care about how organisms learn, buckle up. 🧵👇
📄 www.biorxiv.org/content/10.1...
💻 code + data 🔗 below 🤩
#neuroskyence
Disruption of theta-timescale spiking impairs learning but spares hippocampal replay https://www.biorxiv.org/content/10.1101/2025.09.15.675587v1
September 17, 2025 at 12:15 PM
Disruption of theta-timescale spiking impairs learning but spares hippocampal replay https://www.biorxiv.org/content/10.1101/2025.09.15.675587v1
Disruption of theta-timescale spiking impairs learning but spares hippocampal replay https://www.biorxiv.org/content/10.1101/2025.09.15.675587v1
September 17, 2025 at 12:15 PM
Disruption of theta-timescale spiking impairs learning but spares hippocampal replay https://www.biorxiv.org/content/10.1101/2025.09.15.675587v1
which is the ratio of the relaxation time of the polymer to the timescale of coalescence, scales as $\theta^3$ for $\theta \ll 1$, thus rationalizing the near-Newtonian response. On the other hand, it has been shown previously that viscoelasticity [5/7 of https://arxiv.org/abs/2505.02226v1]
May 6, 2025 at 6:14 AM
which is the ratio of the relaxation time of the polymer to the timescale of coalescence, scales as $\theta^3$ for $\theta \ll 1$, thus rationalizing the near-Newtonian response. On the other hand, it has been shown previously that viscoelasticity [5/7 of https://arxiv.org/abs/2505.02226v1]
arXiv:2503.03540v1 Announce Type: new
Abstract: We introduce a two-timescale SIRS-type model in which a fraction $\theta$ of infected individuals experiences a severe course of the disease, requiring hospitalization. During hospitalization, [1/5 of https://arxiv.org/abs/2503.03540v1]
Abstract: We introduce a two-timescale SIRS-type model in which a fraction $\theta$ of infected individuals experiences a severe course of the disease, requiring hospitalization. During hospitalization, [1/5 of https://arxiv.org/abs/2503.03540v1]
March 6, 2025 at 6:11 AM
arXiv:2503.03540v1 Announce Type: new
Abstract: We introduce a two-timescale SIRS-type model in which a fraction $\theta$ of infected individuals experiences a severe course of the disease, requiring hospitalization. During hospitalization, [1/5 of https://arxiv.org/abs/2503.03540v1]
Abstract: We introduce a two-timescale SIRS-type model in which a fraction $\theta$ of infected individuals experiences a severe course of the disease, requiring hospitalization. During hospitalization, [1/5 of https://arxiv.org/abs/2503.03540v1]
The human auditory cortex concurrently tracks syllabic and phonemic timescales via acoustic spectral flux www.science.org/doi/10.1126/... iEEG.
1. syllabic & phonemic timescales both reflected in the acoustic spectral flux
2. cortex tracks syllabic timescale: theta range, phonemic via alpha-beta
1. syllabic & phonemic timescales both reflected in the acoustic spectral flux
2. cortex tracks syllabic timescale: theta range, phonemic via alpha-beta
The human auditory cortex concurrently tracks syllabic and phonemic timescales via acoustic spectral flux
Human auditory cortex tracks specific acoustic features, providing a multiscale temporal template for subsequent speech parsing.
www.science.org
December 21, 2024 at 10:27 PM
The human auditory cortex concurrently tracks syllabic and phonemic timescales via acoustic spectral flux www.science.org/doi/10.1126/... iEEG.
1. syllabic & phonemic timescales both reflected in the acoustic spectral flux
2. cortex tracks syllabic timescale: theta range, phonemic via alpha-beta
1. syllabic & phonemic timescales both reflected in the acoustic spectral flux
2. cortex tracks syllabic timescale: theta range, phonemic via alpha-beta