Now showing items 1-3 of 3

    • Controlling the speed and trajectory of evolution with counterdiabatic driving 

      Iram, Shamreen; Dolson, Emily; Chiel, Joshua; Pelesko, Julia; Krishnan, Nikhil; Güngör, Özenç; Kuznets-Speck, Benjamin; Deffner, Sebastian; Ilker, Efe; Scott, Jacob G.; Hinczewski, Michael (Nature, 2020-08-24)
      The pace and unpredictability of evolution are critically relevant in a variety of modern challenges: combating drug resistance in pathogens and cancer, understanding how species respond to environmental perturbations like ...
    • Counterdiabatic control of biophysical processes 

      Ilker, Efe; Güngör, Özenç; Kuznets-Speck, Benjamin; Chiel, Joshua; Deffner, Sebastian; Hinczewski, Michael (2021-06-14)
      The biochemical reaction networks that regulate living systems are all stochastic to varying degrees. The resulting randomness affects biological outcomes at multiple scales, from the functional states of single proteins ...
    • An introduction to using counterdiabatic driving to eliminate genetic lag in changing environments 

      Dolson, Emily; Iram, Shamreen; Chiel, Joshua; Pelesko, Julia; Krishnan, Nikhil; Güngör, Özenç; Kuznets-Speck, Benjamin; Deffner, Sebastian; Ilker, Efe; Scott, Jacob G.; Hinczewski, Michael (The MIT Press Journals, 2020-07-14)