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Kim, Taehyun ; Planey, James ; Lindgren, Robb ( , Proceedings of the International Conference of the Learning Sciences (ICLS 2022))
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Diederich, Morgan ; Kang, Jina ; Kim, Taehyun ; Lindgren, Robb ( , Proceedings of the 11th International Learning Analytics and Knowledge Conference (LAK 21))
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Kim, Taehyun ; Planey, James ; Lindgren, Robb ; Kang, Jina ( , Proceedings of the International Conference of the Learning Sciences (ICLS 2021))
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Kim, Taehyun ; Ko, Byeongkwan ; Greenberg, Eran ; Prakapenka, Vitali ; Shim, Sang‐Heon ; Lee, Yongjae ( , Geophysical Research Letters)
Abstract One of the central challenges in accurately estimating the mantle melting temperature is the sensitivity of the probe for detecting a small amount of melt at the solidus. To address this, we used a multichannel collimator to enhance the diffuse X‐ray scattering from a small amount of melt and probed an eutectic pyrolitic composition to increase the amount of melt at the solidus. Our in situ detection of diffuse scattering from the pyrolitic melt determined an anhydrous melting temperature of 3,302 ± 100 K at 119 ± 6 GPa and 3,430 ± 130 K at the core‐mantle boundary (CMB) conditions, as the upper bound temperature. Our CMB temperature is approximately 700 K lower than the previous estimates, implying much faster secular cooling and higher concentrations of S, C, O, and/or H in the region, and nonlinear, advocating the basal magma ocean hypothesis.