References
- Mitchell Waldrop M. The disruptor. Nature. 2011;474:20–22.
- Available from: http://physics.cancer.gov/
- Nurse P. The great ideas of biology. Available from: http://bit.ly/1OSoDdJ
- Davies PCW, Demetrius LA, Tuszynski JA. Cancer as a dynamical phase transition. Theor Biol Med Modell. 2011;8:30.10.1186/1742-4682-8-30
- Schrödinger E. What is life the physical aspect of the living cell. 1st ed. Cambridge: Cambridge University Press; 1944.
- McClintock PVE. What is life? Contemp Phys. 2015;53(5):433–435.
- Michor F, Liphardt J, Ferrari M, et al. What does physics have to do with cancer? Nat Rev Cancer. 2011;11(9):657–670.10.1038/nrc3092
- Zhang Q, Austin RH. Physics of cancer: the impact of heterogeneity. Ann Rev Condens Matter Phys. 2012;3:363–382.10.1146/annurev-conmatphys-020911-125109
- Altrock P, Liu LL, Michor F. The mathematics of cancer: integrating quantitative models. Nat Rev Cancer. 2015;15(12):730–745.10.1038/nrc4029
- Austin RH, Gerstman BS. Preface: physics of cancer. AIP Adv. 2012;2:010901.10.1063/1.3699622
- Kramer D. Physicists offer a different approach to cancer research. Phys Today. 2014;67(11):22–24.
- Mierke CT. Physics of cancer. Bristol: Institute of Physics; 2015.
- Gerstman BS, editor. Research on the physics of cancer. Singapore: World Scientific; 2016.
- Wodarz D, Komarova NL. Dynamics of cancer: mathematical foundations of oncology. Singapore: World Scientific; 2014.
- Kuang Y, Nagy JD, Eikenberry SE. Introduction to mathematical oncology. Boca Raton (FL): Chapman and Hall/CRC; 2016.