Due to recent advances in communication systems, dielectric and magnetic ceramics
(ferrites) are attractive for use in devices. Spinel-type ferrites were the first material utilized in …

Ferromagnetic resonance driven spin pum**, a topic of steadily increasing interest since
its emergence over two decades ago, remains one of the most exciting research fields in …

The ability to manipulate entanglement between multiple spatially separated qubits is
essential for quantum-information processing. Although nitrogen-vacancy (NV) centers in …

The discovery of magnetic order in atomically-thin van der Waals materials has
strengthened the alliance between spintronics and two-dimensional materials. An important …

The magnon propagation length,⟨ ξ⟩, of a ferro-/ferrimagnet (FM) is one of the key factors
that controls the generation and propagation of thermally driven magnonic spin current in …

Performing propagating spin-wave spectroscopy of thin films at millikelvin temperatures is
the next step toward the realization of large-scale integrated magnonic circuits for quantum …

Harnessing the spin–momentum locking of topological surface states in conjunction with
magnetic materials is the first step to realize novel topological insulator-based devices …

We investigate the temperature-dependent microwave absorption spectrum of an yttrium
iron garnet sphere as a function of temperature (5 to 300 K) and frequency (3 to 43.5 GHz) …

We propose an approach to realize a hybrid quantum system composed of a diamond
nitrogen-vacancy (NV) center spin coupled to a magnon mode of the low-dam**, low …

Yttrium iron garnet has a very high Verdet constant, is transparent in the infrared and is an
insulating ferrimagnet leading to its use in optical and magneto-optical applications. Its high …