Professor
Prof. K G Suresh
Areas Of Expertise
- Condensed matter physics
- Magnetism in intermetallics
- Permanent magnetic materials
- Experimantal condensed matter physics
- Magnetic refrigerant materials
- Cryogenic applications
- Space technology
- Diluted magnetic semiconductor
- Ceramics
- Nano Structured Magnetics Refrigerates
- Magnetic materials
- Anisotropy
- Curie temperature
- Intermetallics
- Magnetization
- Metamagnetism
- D. Devil’
- s staircase
- D. Heat capacity
- D. Magnetic refrigeration
- D. Magnetocaloric effect
- D. Metamagnetism
- Long-range order
- Magnetic frustration
- Spin glass
- Antiferromagnetism
- Magnetocaloric effect
- Refrigerant capacity
- Spin fluctuations
- Hard magnetic materials
- Magnetocrystalline anisotropy
- Heat capacity
- Itinerant electron metamagnetism
- Laves phase
- Magnetovolume effect
- Domain wall pinning
- Ferrimagnets
- Magnetic entropy
- Magneto-structural transformation
- Magnetoresistance
- Magnetism
- Metallic glass
- Microstructure
- Soft magnetic materials
- Co ferrite
- Magnetic properties
- Nanoparticles
- Ferromagnetic
- Phase transition
- X-ray-diffraction
- Intermetallic compounds
- Magnetic-behavior
- Ferromagnetism
- Amorphous
- Nanocrystallization
- Alloys
- NI2+XMN1-XGA
- Films
- Magnetic measurements
- X-ray diffraction
- Magnetically ordered materials:crystal structure and symmetry
- Transport-properties
- Entropy change
- Magnetoresistance
- Transition
- LA0.7ca0.3mno3
- Manganites
- MN
- LAMNO3+Delta
- Perovskites
- Iron
- Magnetic properties
- Mossbauer spectroscopy
- Solid-state structures
- Tert-butyl phosphate
- Purple acid-phosphatases
- Mixed-valence
- Diiron(iii) complexes
- Iron(iii) complex
- Crystal-structure
- Structural diversity
- Phosphonate ligands
- Magnetic-properties
- Auxiliary ligands
- Coordination modes
- Cubanes
- Manganese
- Phosphorus
- Single-molecule magnet
- Metal-phosphonate
- Crystal-structures
- Cage structures
- Complexes
- Clusters
- Tetranuclear
- Water
- Spin
- Magnetocaloric
- Rapid Solidification
- Iron
- M?ssbauer spectroscopy
- Solid-state structures
- Coordination modes
- Cubanes
- Manganese
- Phosphorus
- Magnetic intermetallics
- Rare-earth intermetallics
- Phase transformation
- Martensitic structure
- Phase-separation
- Transitions
- Instability
- substitutions
- Behavior
- Magnetic relaxation
- Ternary
- Double perovskite materials
- Transport properties
- Structural properties
- Double perovskites
- Resistivity
- CA
- Doped cefe2
- RU
- Heusler alloy
- Martensitic transition
- Induced shape recovery
- Magnetization
- Avalanche
- Hoco2
- Heat
- Pressure
- Magnetostructural coupling
- Supercooling
- Phase coexistence
- Phase coexistence
- Magnetic entropy change
- Precursors
- Powder
- Order
- 1ST
- A. Magnetic intermetallics
- A. Rare-earth intermetallics
- B. Magnetic properties
- B. Phase transformation
- D. Martensitic structure
- A. Double perovskite materials
- B. Magnetoresistance
- C. Transport properties
- D. Structural properties
- A. Intermetallics
- D. Magnetostructural coupling
- D. Phase coexistence
- D. Supercooling