Research output per year
Research output per year
Description
Raw data used to generate the figures show in a publication.
DOI: 10.3389/fncir.2015.00025
Folder figure 1 contains the raw data for the I-V and L-I for the LED in tab spaced anci format. The first row contains headings. Data was recorded using a Yokogawa, Source Measure Unit GS610 and a Thorlabs PM100A with a S120VC head.
Folder figure 2 contains the output from a custom written Monte Carlo code used to estimate the power of light in brain tissue from both an LED and Optrode source. Each data set is in a tab spaced anci format. The power is normalised.
Folder figure 3 contains the raw data recorded from a 32 channel neuronexus probe. signals were amplified (HST/32V-G20 and PBX3, Plexon) and digitised at 20,000 Hz (PXI, National Instruments). The data is encoded in 16 bit binary, with 33 channel recording at 20 kS. 1st channel is a sync channel and the rest of
channels are neural signals (32 ch linear probe recording).
Folder figure 4 contains the raw image as a post script image file.
DOI: 10.3389/fncir.2015.00025
Folder figure 1 contains the raw data for the I-V and L-I for the LED in tab spaced anci format. The first row contains headings. Data was recorded using a Yokogawa, Source Measure Unit GS610 and a Thorlabs PM100A with a S120VC head.
Folder figure 2 contains the output from a custom written Monte Carlo code used to estimate the power of light in brain tissue from both an LED and Optrode source. Each data set is in a tab spaced anci format. The power is normalised.
Folder figure 3 contains the raw data recorded from a 32 channel neuronexus probe. signals were amplified (HST/32V-G20 and PBX3, Plexon) and digitised at 20,000 Hz (PXI, National Instruments). The data is encoded in 16 bit binary, with 33 channel recording at 20 kS. 1st channel is a sync channel and the rest of
channels are neural signals (32 ch linear probe recording).
Folder figure 4 contains the raw image as a post script image file.
| Date made available | 2015 |
|---|---|
| Publisher | University of Strathclyde |
| Date of data production | 1 May 2014 |
Research output
- 1 Article
-
Optogenetic activation of neocortical neurons in vivo with a sapphire-based micro-scale LED probe
McAlinden, N., Gu, E., Dawson, M. D., Sakata, S. & Mathieson, K., 29 May 2015, In: Frontiers in Neural Circuits. 9, 15 p., 25.Research output: Contribution to journal › Article › peer-review
Open AccessFile74 Citations (Scopus)165 Downloads (Pure)