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# RE library (under construction) 
 
## Basic articles:

* Dreicer, Hz. "Electron and ion runaway in a fully ionized gas. I." Physical Review 115.2 (1959): 238.
* Dreicer, H. "Electron and ion runaway in a fully ionized gas. II." Physical review 117.2 (1960): 329.
* Connor, J. W., and R. J. Hastie. "Relativistic limitations on runaway electrons." Nuclear fusion 15.3 (1975): 415.
* Knoepfel, Heinz, and D. A. Spong. "Runaway electrons in toroidal discharges." Nuclear Fusion 19.6 (1979): 785.
* Smith, Hakan M., and Erwin Verwichte. "Hot tail runaway electron generation in tokamak disruptions." Physics of Plasmas 15.7 (2008): 072502.

## Review articles:

* Jaspers, R. E. "Relativistic runaway electrons in tokamak plasmas." (1995).
* Breizman, Boris N., et al. "Physics of runaway electrons in tokamaks." Nuclear Fusion 59.8 (2019): 083001.
* [ToreSupra overview](https://www.tandfonline.com/doi/abs/10.13182/FST13-A24090)


## COMPASS related:

* Vlainić, Miloš, et al. "First dedicated observations of runaway electrons in the COMPASS tokamak." Nukleonika 60.2 (2015): 249-255.
* Ficker, O., et al. "Losses of runaway electrons in MHD-active plasmas of the COMPASS tokamak." Nuclear Fusion 57.7 (2017): 076002.
* Mlynar, J., et al. "Runaway electron experiments at COMPASS in support of the EUROfusion ITER physics research." Plasma Physics and Controlled Fusion 61.1 (2018): 014010.
* [dir](COMPASS/)

## CASTOR/GOLEM related

* ..
* [here](CASTOR_GOLEM/)

## Others
* [JET (Cédric)](https://iopscience.iop.org/article/10.1088/0029-5515/55/9/093013)