Determining the key vibrations for spin relaxation in ruffled Cu (II) porphyrins via resonance Raman spectroscopy
NP Kazmierczak, NE Lopez, KM Luedecke… - Chemical Science, 2024 - pubs.rsc.org
Pinpointing vibrational mode contributions to electron spin relaxation (T1) constitutes a key
goal for developing molecular quantum bits (qubits) with long room-temperature coherence …
goal for developing molecular quantum bits (qubits) with long room-temperature coherence …
Coherent spin-control of S= 1 vanadium and molybdenum complexes
The burgeoning field of quantum sensing hinges on the creation and control of quantum bits.
To date, the most well-studied quantum sensors are optically active, paramagnetic defects …
To date, the most well-studied quantum sensors are optically active, paramagnetic defects …
Ligand field design enables quantum manipulation of spins in Ni 2+ complexes
Creating the next generation of quantum systems requires control and tunability, which are
key features of molecules. To design these systems, one must consider the ground-state and …
key features of molecules. To design these systems, one must consider the ground-state and …
Elucidating ultranarrow 2 F 7/2 to 2 F 5/2 absorption in ytterbium (iii) complexes
BY Li, CE Dickerson, AJ Shin, C Zhao, Y Shen… - Chemical …, 2024 - pubs.rsc.org
Achieving ultranarrow absorption linewidths in the condensed phase enables optical state
preparation of specific non-thermal states, a prerequisite for quantum-enabled technologies …
preparation of specific non-thermal states, a prerequisite for quantum-enabled technologies …