Difference between revisions of "Chris Kempes"
From Thermodynamics of Computation
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|Biography=I am a scientist working at the intersection of physics, biology, and the earth sciences. Using mathematical and computational techniques I study how simple theoretical principles inform a variety of phenomena ranging from major evolutionary life-history transitions, to the biogeography of plant traits, to the organization of bacterial communities. I am particularly interested in biological architecture as a mediator between physiology and the local environment. | |Biography=I am a scientist working at the intersection of physics, biology, and the earth sciences. Using mathematical and computational techniques I study how simple theoretical principles inform a variety of phenomena ranging from major evolutionary life-history transitions, to the biogeography of plant traits, to the organization of bacterial communities. I am particularly interested in biological architecture as a mediator between physiology and the local environment. | ||
| − | |Fields of Research=Chemical Reaction Networks; | + | |Fields of Research=Chemical Reaction Networks; Naturally Occurring Biological Computation |
|Related links={{Related link | |Related links={{Related link | ||
|Related link title=Chris Kempe's SFI website. | |Related link title=Chris Kempe's SFI website. | ||
|Related link URL=https://www.santafe.edu/people/profile/chris-kempes | |Related link URL=https://www.santafe.edu/people/profile/chris-kempes | ||
}} | }} | ||
| + | |Thematic area=Thermodynamics of Computation | ||
}} | }} | ||
Revision as of 21:17, April 16, 2018
Biography: I am a scientist working at the intersection of physics, biology, and the earth sciences. Using mathematical and computational techniques I study how simple theoretical principles inform a variety of phenomena ranging from major evolutionary life-history transitions, to the biogeography of plant traits, to the organization of bacterial communities. I am particularly interested in biological architecture as a mediator between physiology and the local environment.
Field(s) of Research: Chemical Reaction Networks, Naturally Occurring Biological Computation
