Add to ORKGPositive-muon behavior in magnetite is investigated by the muon-spin-rotation technique. The observed muon relaxation rate in zero applied field, in conjunction with the measured local field, allows us to separate muon-motion effects from phase transitions associated with magnetite. The local magnetic field is observed to be 4.02 kOe directed along the axis, the easy axis of magnetization. Possible origins of this field are discussed in terms which include local muon diffusion and a supertransfer hyperfine interaction resulting from muon-oxygen bonding. An anomaly in the muon hyperfine interactions is observed at 247 K
We present a study of the spin dynamics of Fe4 (OCH3) 6 (dpm) 6 single molecule magnet by means of S...
A series of model iron(II) spin crossover complexes have been investigated by temperature dependent ...
The spin-crossover phenomenon is a cooperative low-spin (LS) to high-spin (HS) transition which can ...
Positive-muon behavior in magnetite is investigated by the muon-spin-rotation technique. The observe...
The local electronic structure of the positive muon has been investigated in semimetallic graphite ...
We present the results of recent muon-spin rotation (μSR) experiments on a variety of novel molecula...
A muon is an unstable spin-1/2 particle with a lifetime of 2.2 μs. Beams of spinpolarized positive m...
Significant muon spin-lattice relaxation is found in a number of non-magnetic semimetals and metals....
We present the results of recent muSR experiments on a variety of novel organic and molecular magnet...
metals The basic properties of positive muons (Posi.tive elementary charge, spin 1/2, mass ratio muo...
We present muon spectroscopy data on a Fe3O4 single crystal, revealing different spin precession pat...
A collection of works stretching from low- to three-dimensional magnetism are presented, studied mos...
New muon-spin-relaxation (µSR) results on magnetite are reported and discussed in light of earlier M...
We present a study of the spin dynamics of Fe4(OCH3)6(dpm)6 single molecule magnet by means of SQUID...
The spin-crossover phenomenon is a cooperative low-spin (LS) to high-spin (HS) transition which can ...
We present a study of the spin dynamics of Fe4 (OCH3) 6 (dpm) 6 single molecule magnet by means of S...
A series of model iron(II) spin crossover complexes have been investigated by temperature dependent ...
The spin-crossover phenomenon is a cooperative low-spin (LS) to high-spin (HS) transition which can ...
Positive-muon behavior in magnetite is investigated by the muon-spin-rotation technique. The observe...
The local electronic structure of the positive muon has been investigated in semimetallic graphite ...
We present the results of recent muon-spin rotation (μSR) experiments on a variety of novel molecula...
A muon is an unstable spin-1/2 particle with a lifetime of 2.2 μs. Beams of spinpolarized positive m...
Significant muon spin-lattice relaxation is found in a number of non-magnetic semimetals and metals....
We present the results of recent muSR experiments on a variety of novel organic and molecular magnet...
metals The basic properties of positive muons (Posi.tive elementary charge, spin 1/2, mass ratio muo...
We present muon spectroscopy data on a Fe3O4 single crystal, revealing different spin precession pat...
A collection of works stretching from low- to three-dimensional magnetism are presented, studied mos...
New muon-spin-relaxation (µSR) results on magnetite are reported and discussed in light of earlier M...
We present a study of the spin dynamics of Fe4(OCH3)6(dpm)6 single molecule magnet by means of SQUID...
The spin-crossover phenomenon is a cooperative low-spin (LS) to high-spin (HS) transition which can ...
We present a study of the spin dynamics of Fe4 (OCH3) 6 (dpm) 6 single molecule magnet by means of S...
A series of model iron(II) spin crossover complexes have been investigated by temperature dependent ...
The spin-crossover phenomenon is a cooperative low-spin (LS) to high-spin (HS) transition which can ...