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Reconstructing imagined letters from early visual cortex reveals tight topographic correspondence between visual mental imagery and perception

Journal article

M. Senden, Thomas C. Emmerling, R. van Hoof, M. Frost, R. Goebel
Brain Structure and Function, 2019
Semantic Scholar DOI
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APA   Click to copy
Senden, M., Emmerling, T. C., van Hoof, R., Frost, M., & Goebel, R. (2019). Reconstructing imagined letters from early visual cortex reveals tight topographic correspondence between visual mental imagery and perception. Brain Structure and Function.

Chicago/Turabian   Click to copy
Senden, M., Thomas C. Emmerling, R. van Hoof, M. Frost, and R. Goebel. “Reconstructing Imagined Letters from Early Visual Cortex Reveals Tight Topographic Correspondence between Visual Mental Imagery and Perception.” Brain Structure and Function (2019).

MLA   Click to copy
Senden, M., et al. “Reconstructing Imagined Letters from Early Visual Cortex Reveals Tight Topographic Correspondence between Visual Mental Imagery and Perception.” Brain Structure and Function, 2019.

BibTeX   Click to copy 

@article{m2019a,
  title = {Reconstructing imagined letters from early visual cortex reveals tight topographic correspondence between visual mental imagery and perception},
  year = {2019},
  journal = {Brain Structure and Function},
  author = {Senden, M. and Emmerling, Thomas C. and van Hoof, R. and Frost, M. and Goebel, R.}
}