Transmission of radio-frequency waves and nuclear magnetic resonance in lanthanum superhydrides
| Autor: | Semenok, Dmitrii V., Bärtl, Florian, Zhou, Di, Helm, Toni, Luther, Sven, Kühne, Hannes, Wosnitza, J., Troyan, Ivan A., Struzhkin, Viktor V. |
|---|---|
| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | The discovery of near-room temperature superconductivity in the lanthanum hydride LaH$_{10}$ has revolutionized this field of research. Until recently, the need to use diamond anvils for the synthesis of polyhydrides severely limited the list of experimental techniques that could be used to study these materials. Nuclear magnetic resonance (NMR) is one of the key methods for probing spin systems of superconductors. In this work, we show how 1H NMR measurements can be realized in diamond anvil cells to study high-temperature superconductivity in lanthanum polyhydrides at pressures up to 165 GPa. We observed a pronounced suppression of the 1H NMR signal intensity below $\textit{T$_{c}$(onset)}$ = 260 K in a magnetic field of 7 T, corresponding to the screening of the radio-frequency pulses by the newly discovered superhydride LaH$_{12}$.Below the critical temperature of superconductivity, all 1H NMR characteristics, including the spin-lattice relaxation rate $\textit{1/T$_{1}$T}$, demonstrate pronounced features, indicating a superconducting transition in the sample. In the absence of an applied magnetic field, the radio-frequency signal transmission through the LaH$_{12}$ sample shows a pronounced drop below $\textit{T$_{c}$(onset)}$ = 267 K, confirming the superconducting nature of the transition. Fitting the nuclear spin-lattice relaxation data allows the estimation of the superconducting gap $\textit{${\Delta}$(0)}$ between 427 and 671 K (corresponding to 36.8 to 57.8 meV), and the ratio $\textit{R$_{\Delta}$ = 2${\Delta}$(0)/k$_B$T$_c$}$ between 3.76 and 5.16 in the synthesized hydride sample. Comment: Preliminary version. Supporting Information will be included in a future version of this work |
| Databáze: | arXiv |
| Externí odkaz: |
|