Low loss Z-type Hexaferrites with Bi2O3 Additives for Ultra-high Frequency Antenna Applications

“…For ferrite materials, tan δ µ is contributed by three main components: hysteresis loss tangent tan δ h , eddy current loss tangent tan δ e , and residual loss tangent tan δ r . [23] The tan δ h is the predominant loss at low frequency (in a range of 10 Hz-1 MHz). [10] Hence, the change in magnetic loss at high frequency is attributed to tan δ e and tan δ r , while tan δ e is inversely proportional to the DC resistivity, and tan δ r is proportional to the grain size of the ferrite.…”

Tuning magneto-dielectric properties of Co₂Z ferrites via Gd doping for high-frequency applications

“…For ferrite materials, tan δ µ is contributed by three main components: hysteresis loss tangent tan δ h , eddy current loss tangent tan δ e , and residual loss tangent tan δ r . [23] The tan δ h is the predominant loss at low frequency (in a range of 10 Hz-1 MHz). [10] Hence, the change in magnetic loss at high frequency is attributed to tan δ e and tan δ r , while tan δ e is inversely proportional to the DC resistivity, and tan δ r is proportional to the grain size of the ferrite.…”

Tuning magneto-dielectric properties of Co₂Z ferrites via Gd doping for high-frequency applications