Paul R. Martin

What is he best known for?

The fields of study he is best known for:

• Retina
• Neuroscience
• Neuron

Neuroscience, Retina, Parvocellular cell, Receptive field and Midget cell are his primary areas of study. In general Neuroscience study, his work on Giant retinal ganglion cells, Retinal ganglion and Geniculate often relates to the realm of Population, thereby connecting several areas of interest. His Retina study integrates concerns from other disciplines, such as Chromatic scale, Biophysics and Anatomy.

His studies in Chromatic scale integrate themes in fields like Luminance, Tonic, Electrophysiology and Communication. His Parvocellular cell research incorporates themes from Lateral geniculate nucleus, Retinal Cone Photoreceptor Cells, Visual system and Color vision. Paul R. Martin works mostly in the field of Lateral geniculate nucleus, limiting it down to topics relating to Trichromacy and, in certain cases, Callithrix and Evolutionary biology, as a part of the same area of interest.

His most cited work include:

• Luminance and chromatic modulation sensitivity of macaque ganglion cells and human observers. (412 citations)
• Sensitivity of macaque retinal ganglion cells to chromatic and luminance flicker. (263 citations)
• Evidence that Blue‐on Cells are Part of the Third Geniculocortical Pathway in Primates (257 citations)

What are the main themes of his work throughout his whole career to date?

Paul R. Martin mainly focuses on Neuroscience, Retina, Lateral geniculate nucleus, Parvocellular cell and Koniocellular cell. Paul R. Martin regularly ties together related areas like Color vision in his Neuroscience studies. His study in Retina is interdisciplinary in nature, drawing from both Anatomy, Ganglion and Cell biology.

The various areas that Paul R. Martin examines in his Lateral geniculate nucleus study include Contrast, Primate, Trichromacy and Magnocellular cell. Paul R. Martin has researched Parvocellular cell in several fields, including Chromatic scale and Electrophysiology. The Koniocellular cell study combines topics in areas such as Geniculate and Laminar organization.

He most often published in these fields:

• Neuroscience (83.52%)
• Retina (56.82%)
• Lateral geniculate nucleus (44.32%)

What were the highlights of his more recent work (between 2016-2021)?

• Neuroscience (83.52%)
• Lateral geniculate nucleus (44.32%)
• Retina (56.82%)

In recent papers he was focusing on the following fields of study:

Paul R. Martin focuses on Neuroscience, Lateral geniculate nucleus, Retina, Koniocellular cell and Parvocellular cell. Neuroscience is often connected to Communication in his work. His Lateral geniculate nucleus study incorporates themes from Chromatic scale, Receptive field and Contrast.

His Retina study combines topics from a wide range of disciplines, such as Ganglion and Cell biology. In his work, Pulvinar nuclei and Superior colliculus is strongly intertwined with Geniculate, which is a subfield of Koniocellular cell. In his study, Magnocellular cell, Neural coding and Color vision is strongly linked to Visual system, which falls under the umbrella field of Parvocellular cell.

Between 2016 and 2021, his most popular works were:

• Melanopsin‐expressing ganglion cells in human retina: Morphology, distribution, and synaptic connections (42 citations)
• Unravelling the subcortical and retinal circuitry of the primate inferior pulvinar (20 citations)
• Survey of retinal ganglion cell morphology in marmoset. (20 citations)

In his most recent research, the most cited papers focused on:

• Retina
• Neuroscience
• Neuron

Paul R. Martin spends much of his time researching Neuroscience, Retina, Visual cortex, Lateral geniculate nucleus and Koniocellular cell. His study on Retinal ganglion is often connected to Eccentricity as part of broader study in Retina. Paul R. Martin combines subjects such as Visual processing and Local field potential with his study of Visual cortex.

His research in Lateral geniculate nucleus intersects with topics in Parvocellular cell, Geniculate and Thalamus. His Parvocellular cell research includes themes of Cerebral cortex and Visual system. His Geniculate research is multidisciplinary, relying on both Superior colliculus, Receptive field and Light intensity.

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