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Direct construction of optimized stellarator shapes. Part 3. Omnigenity near the magnetic axis – ERRATUM

Published online by Cambridge University Press:  10 December 2021

Gabriel G. Plunk*
Affiliation:
Max-Planck-Institut für Plasmaphysik, EURATOM Association, 17491Greifswald, Germany
Matt Landreman
Affiliation:
Institute for Research in Electronics and Applied Physics, University of Maryland, College Park, MD20742, USA
Per Helander
Affiliation:
Max-Planck-Institut für Plasmaphysik, EURATOM Association, 17491Greifswald, Germany
*
Email address for correspondence: [email protected]
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Abstract

Type
Erratum
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2021. Published by Cambridge University Press

Below we clarify the conventions used for normalization in our paper (Punk, Landreman & Herlander Reference Punk, Landreman and Herlander2019), and correct some associated errors in the equations. The validity of the numerical solutions and the main conclusions of the paper are unaffected by these corrections.

Following Garren & Boozer (Reference Garren and Boozer1991), we define the expansion parameter as $\epsilon = \sqrt {\psi }$ so that the magnetic field can be expressed to first order as $B(\epsilon , \theta , \varphi ) \approx B_{{a}}(\varphi ) (1 + \epsilon \sqrt {2/B_{{a}}(\varphi )}\kappa ^s(\varphi ) \eta _{\mathrm {GB}}(\varphi ) \cos [\theta - \alpha (\varphi ) ])$, where the ‘$\eta$’ of Garren & Boozer (Reference Garren and Boozer1991) is here denoted $\eta _{\mathrm {GB}}$; see their (79). For simplicity, we introduced the quantity $d$, related to $\eta _{\mathrm {GB}}$ by

(0.1)\begin{equation} d(\varphi) = \sqrt{\frac{2}{B_{{a}}(\varphi)}}\;\kappa^s(\varphi)\eta_{\mathrm{GB}}(\varphi), \end{equation}

so that the magnetic field to first order becomes

(0.2)\begin{equation} B(\epsilon, \theta, \varphi) \approx B_{{a}}(\varphi) \left(1 + \epsilon d(\varphi) \cos[\theta - \alpha(\varphi) ] \right), \end{equation}

as correctly written in (6.1) of our paper.

Our definitions for $d$ and $\epsilon$ affect the forms of the first order components of the coordinate mapping, $X_1$ and $Y_1$. These quantities are introduced in the text at the beginning of § 7, where the the coordinate mapping ${\boldsymbol {x}}$ to first order should read

(0.3)\begin{equation} {\boldsymbol{x}}\approx {\boldsymbol{r}}_0 + \epsilon(X_1 {\boldsymbol{n}}^s + Y_1 {\boldsymbol{t}}^s). \end{equation}

Note the factor of $\epsilon$ is missing in the paper. The form of $X_1$ was correctly given by (7.1), but that for $Y_1$, (7.2), should read

(0.4)\begin{equation} Y_1 = \frac{2}{B_{{a}}(\varphi)\bar{d}(\varphi)} \{ \sin[\theta - \alpha(\varphi)] + \sigma(\varphi) \cos[\theta - \alpha(\varphi)] \},\end{equation}

with the correction being the factor of $1/B_{{a}}(\varphi )$.

Our forms of $B$, $X_1$ and $Y_1$ can be compared with (79)–(81) of Garren & Boozer (Reference Garren and Boozer1991), and can be seen to agree, given our definitions of $\epsilon$, $d$ and $\bar {d}$, and the substitution $\kappa \rightarrow \kappa ^s$. A related error was introduced into the definition of $P$ immediately following (7.7), which should read

(0.5)\begin{equation} P = 1 + B_{{a}}^2\bar{d}^4/4. \end{equation}

The solutions presented in § 8 remain valid, but we note that $d$ defined in (8.4) (also depicted in figure 2b) misses a factor of $\sqrt {2}$, and should read

(0.6)\begin{equation} d(\varphi) = \sqrt{2}\left[ 1.08 \sin(\varphi) + 0.26 \sin(2\varphi) + 0.46 \sin(3 \varphi)\right]. \end{equation}

Finally, there is a typo, unrelated to the preceding issues: following (7.10) it should read $\Delta \varphi (\varphi ) = \varphi - \varphi _b(\varphi )$.

Acknowledgements

We wish to thank to R. Jorge and K. Camacho Mata for helping to discover and correct these errors.

Editor Peter Catto thanks the referees for their advice in evaluating this article.

References

REFERENCES

Garren, D. A. & Boozer, A. H. 1991 Magnetic field strength of toroidal plasma equilibria. Phys. Fluids B 3 (10), 28052821. Available at: http://scitation.aip.org/content/aip/journal/pofb/3/10/10.1063/1.859915.10.1063/1.859915CrossRefGoogle Scholar
Punk, G. G., Landreman, M. & Herlander, P. 2019 Direct construction of optimized stellarator shapes. Part 3. Omnigenity near the magnetic axis. J. Plasma Phys. 85 (6), 905850602.10.1017/S002237781900062XCrossRefGoogle Scholar