Spin wave amplification: electron mechanisms
V.D.Lakhno. Spin wave amplification: electron mechanisms.
– Pushchino: Scientific Center of Biological Researches USSR Academy of Sciences, 1989, 77 p. ( in Russian )
Contents :
| Title | Page |
|---|---|
| INTRODUCTION | 3 |
| PART 1. Magnetic Susceptibility |
|
| 1.1. Magnetic Susceptibility of an Antiferromagnet in the Absence of s-f Exchange | 9 |
| 1.2. Landau-Lifshits Equation for an Antiferromagnet in the Presence of s-f Exchange | 12 |
| 1.3. Hydrodynamic Theory of Magnetic Susceptibility in the Presence of s-f Exchange | 14 |
| 1.4. Susceptibility Tensor cF (k , w): Its Properties and Applications | 18 |
| PART 2. Exchange Amplification of Spin Waves in Magnetically Ordered Crystals |
|
| 2.1. Amplification of Spin Waves in Antiferromagnets and Ferromagnets: Qualitative Differences | 20 |
| 2.2. Amplification of Spin Waves in a Longitudinal Field | 22 |
| 2.3. Amplification of Spin Waves in Crossed Fields | 25 |
| 2.4. Attenuation of Spin Waves: Its Effects | 27 |
| 2.5. Electron Heating: Its Effect | 28 |
| 2.6. Antiferromagnetic Resonance in Superconducting Antiferromagnets: Specifics | 29 |
| 2.7. Propagation of Sound in Conducting Magnets | 30 |
| 2.8. Nonexchange Mechanisms of Spin Wave Amplification | 32 |
| PART 3. Amplification of Spin Waves in Anisotropic Antiferromagnets: A Macroscopic Theory |
|
| 3.1. Amplification of Spin Waves in an Easy Plane Antiferromagnet in a Magnetic Field Parallel to the Anisotropy Axis | 35 |
| 3.2. Amplification of Spin Waves in an Easy Plane Antiferromagnet in a Magnetic Field Perpendicular to the Anisotropy Axis | 39 |
| 3.3. The s-f Exchange Amplification of Spin Waves in Ferrimagnets | 41 |
| PART 4. Magnetoplasma Effects in s-f Exchange Amplification of Spin Waves |
|
| 4.1. Magnetic Susceptibility Tensor and Conductivity | 44 |
| 4.2. Kinetic Approach: Its Results | 45 |
| 4.3. Resonance Effects | 48 |
| PART 5. Multiple-Carrier Theory |
|
| 5.1. Two Types of Carriers | 50 |
| 5.2. Amplification of Spin Waves in Crossed Fields | 52 |
| 5.3. Amplification of Spin Waves in a Weak Magnetic Field | 54 |
| PART 6. Amplification of Spin Waves in Disordered Magnets |
|
| 6.1. General | 56 |
| 6.2. Spin Glass in the Absence of Current Carriers | 57 |
| 6.3. The s-f Exchange Mechanism for the Amplification of Spin Waves in Spin Glass | 57 |
| 6.4. Use of Spin Glass for Spin Wave Amplification | 59 |
| PART 7. Radioelectric Effect in Antiferromagnets |
62 |
| PART 8. Quantum Theory of Spin Wave Amplification |
|
| 8.1. Hamiltonian of s-f Exchange in an Antiferromagnet | 65 |
| 8.2. Spin Wave Amplification Coefficient in a Magnetic Field | 67 |
| 8.3. Spin Wave Amplification Coefficient in Ultraquantum Limit | 68 |
| 8.4. Amplification of Spin Waves in a Nonquantizing Field | 70 |
| CONCLUDING REMARKS | 72 |