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\title{Triangular Flow of Identified Particles in Fixed Target Au+Au 
Collisions at STAR}
\author{Cameron Racz \\(for STAR Collaboration)}
\affil{University of California, Riverside}

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\begin{abstract}
    Directed and elliptic flow have been extensively studied in heavy-ion 
    collisions while triangular flow ($v_3$) could be further explored. 
    $v_3$ could prove very useful as a signal for Quark-Gluon Plasma 
    (QGP) formation due to its link to viscosity and the possibility that 
    it is less affected by transport dynamics at very low energies \cite{PhysRevC.88.064908}. This 
    poster presents the current progress of an analysis on $v_3$ for $\pi$, 
    $K$, $p$, $d$, and $t$ at the fixed target energies of $\sqrt{s_{NN}}=3.0$ GeV and $7.2$ GeV 
    from phase-II of the Beam Energy Scan at STAR. The results include a correlation 
    between $v_3$ and the first-order event plane and a clear rapidity-odd 
    $v_3$ for $p$. This is the first in a series of collision energies 
    at STAR below and above the QGP phase transition where triangular flow 
    for identified particles will be studied.
\end{abstract}

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