Questions regarding the continuity in $kappa$ of the $SLE_{kappa}$ traces and maps appear very naturally in the study of SLE. In order to study the first question, we consider a natural coupling of SLE traces: for different values of $kappa$ we use the same Brownian motion. It is very natural to assume that with probability one, $SLE_kappa$ depends continuously on $kappa$. It is rather easy to show that $SLE$ is continuous in the Caratheodory sense, but showing that $SLE$ traces are continuous in the uniform sense is much harder. In this note we show that for a given sequence $kappa_jtokappa in (0, 8/3)$, for almost every Brownian motion $SLE_kappa$ traces converge locally uniformly. This result was also recently obtained by Friz, Tran and Yuan using different methods. In our analysis, we provide a constructive way to study the $SLE_{kappa}$ traces for varying parameter $kappa in (0, 8/3)$. The argument is based on a new dynamical view on the approximation of SLE curves by curves driven by a piecewise square root approximation of the Brownian motion. The second question can be answered naturally in the framework of Rough Path Theory. Using this theory, we prove that the solutions of the backward Loewner Differential Equation driven by $sqrt{kappa}B_t$ when started away from the origin are continuous in the $p$-variation topology in the parameter $kappa$, for all $kappa in mathbb{R}_+$
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