A newly made organic salt shows canted antiferromagnetic order at 14 K and band calculations reveal spin splitting, establishing it as the second altermagnet candidate among κ-type BEDT-TTF conductors after κ-Cl.
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Survey of vibrational modes in BEDT-TTF conductors finds clear charge-frequency shifts (141 cm^{-1}/e and 98 cm^{-1}/e) yet ~20 cm^{-1} scatter that limits absolute site-charge accuracy to roughly ±0.045 e.
citing papers explorer
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The second altermagnet candidate in organic conductors: $\kappa$-(BEDT-TTF)$_2$$m$-HOOCC$_6$H$_4$SO$_3$
A newly made organic salt shows canted antiferromagnetic order at 14 K and band calculations reveal spin splitting, establishing it as the second altermagnet candidate among κ-type BEDT-TTF conductors after κ-Cl.
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Charge-sensitive vibrational modes in BEDT-TTF salts: Signatures of charge ordering and site charge
Survey of vibrational modes in BEDT-TTF conductors finds clear charge-frequency shifts (141 cm^{-1}/e and 98 cm^{-1}/e) yet ~20 cm^{-1} scatter that limits absolute site-charge accuracy to roughly ±0.045 e.