@article{zhang-luck-08_fixed-resolution-representation-in-visual-working-memory,
  title={Discrete fixed-resolution representations in visual working memory},
  author={Zhang, W. and Luck, S.J.},
  journal={Nature},
  volume={453},
  number={7192},
  pages={233--235},
  year={2008},
  abstract = {
  
Limits on the storage capacity of working memory significantly affect
cognitive abilities in a wide range of domains1, but the nature of these
capacity limits has been elusive2. Some researchers have proposed that
working memory stores a limited set of discrete, fixed-resolution
representations3, whereas others have proposed that working memory consists
of a pool of resources that can be allocated flexibly to provide either a
small number of high-resolution representations or a large number of
low-resolution representations4. Here we resolve this controversy by
providing independent measures of capacity and resolution. We show that, when
presented with more than a few simple objects, human observers store a
high-resolution representation of a subset of the objects and retain no
information about the others. Memory resolution varied over a narrow range
that cannot be explained in terms of a general resource pool but can be well
explained by a small set of discrete, fixed-resolution representations.

}}


@article{blalock-mcCabe-11_interference-visuospatial-wroking-memory,
  title={Proactive interference and practice effects in visuospatial working memory span task performance},
  author={Blalock, L.D. and McCabe, D.},
  journal={Memory},
  volume={19},
  number={1},
  pages={83--91},
  year={2011},
  publisher={Psychology Press, part of the Taylor \& Francis Group}

NOHAVE
}

@article{luck1997capacity,
  title={The capacity of visual working memory for features and conjunctions},
  author={Luck, S.J. and Vogel, E.K.},
  journal={Nature},
  volume={390},
  number={6657},
  pages={279--280},
  year={1997},
  publisher={[London: Macmillan Journals], 1869-}
}