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Invariant HVC size in female canaries singing under testosterone: Unlocking function through neural differentiation, not growth.
Jun 20, 2025
Ma, Shouwen; Frankl-Vilches, Carolina; Gahr, Manfred, 2025, "Invariant HVC size in female canaries singing under testosterone: Unlocking function through neural differentiation, not growth.", https://doi.org/10.17617/3.ZLHNKB, Edmond, V1
Raw images for Fig. 2: Song development and HVC size stability during testosterone-induced singing in adult female canaries.
ca_F41x1_s3_DPI00.tif
Jun 20, 2025 - Invariant HVC size in female canaries singing under testosterone: Unlocking function through neural differentiation, not growth.
TIFF Image - 379.1 MB - MD5: 548e6baeaa83d6e7956f964328499011
ca_F41_x1_s3_DPI08.tif
Jun 20, 2025 - Invariant HVC size in female canaries singing under testosterone: Unlocking function through neural differentiation, not growth.
TIFF Image - 274.2 MB - MD5: 40eb995d925a5f25e21031c0582c9225
ca_F41_x1_s3_DPI13.tif
Jun 20, 2025 - Invariant HVC size in female canaries singing under testosterone: Unlocking function through neural differentiation, not growth.
TIFF Image - 254.1 MB - MD5: a34085c9e8c035c502834e85b84eea2f
ca_F41_x1_s3_DPI18.tif
Jun 20, 2025 - Invariant HVC size in female canaries singing under testosterone: Unlocking function through neural differentiation, not growth.
TIFF Image - 294.4 MB - MD5: bd991e78cf7fad63b5fed20a53455134
ca_F41_x1_s3_DPI27.tif
Jun 20, 2025 - Invariant HVC size in female canaries singing under testosterone: Unlocking function through neural differentiation, not growth.
TIFF Image - 304.5 MB - MD5: 182c233253cc62410c6e18cf69314ed8
ca_F41_x1_s3_DPI33.tif
Jun 20, 2025 - Invariant HVC size in female canaries singing under testosterone: Unlocking function through neural differentiation, not growth.
TIFF Image - 274.2 MB - MD5: f28e40076deb94953918a2f7d5193c83
Resolving Droplet Sedimentation Effects in Stratocumulus Clouds
Jun 18, 2025
Pistor, Raphael, 2025, "Resolving Droplet Sedimentation Effects in Stratocumulus Clouds", https://doi.org/10.17617/3.9V1H4Y, Edmond, V3
Startup files, observations, and scripts used for the publication: "Resolving Droplet Sedimentation Effects in Stratocumulus Clouds".
tlab.tar.gz
Jun 18, 2025 - Resolving Droplet Sedimentation Effects in Stratocumulus Clouds
Gzip Archive - 5.9 MB - MD5: 82eb84ac88a65d001371dff9fb7d1b96
Source code for the model: tlab
Electron Spillover into Water Layers: A Quantum Leap in Understanding Capacitance Behavior
Jun 17, 2025
Li, Lang, 2025, "Electron Spillover into Water Layers: A Quantum Leap in Understanding Capacitance Behavior", https://doi.org/10.17617/3.YIU9ZE, Edmond, V1
This dataset contains the ab initio molecular dynamics (AIMD) input files used for simulating the Pt(111)/water interface, as presented in the accompanying publication. The files include the system setup for our DFT-PCH method, and parameters necessary for reproducing the simulations, such as the exchange-correlation functional, pseudopotentials.
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