Add to ORKGPositive muons can be implanted into organic and molecular magnets in order to study their internal magnetic field distribution and any associated dynamics. The muon behaves essentially as a "microscopic magnetometer", sensitive to local magnetic order and magnetic fluctuations. We describe some recent experiments using this technique which were performed on a variety of organic systems, including nitronyl nitroxide magnets and materials with spin-Peierls ground states, MF-M(TCNQ)(2) and DEM(TCNQ)(2), and demonstrate how the technique can give information concerning their ground states
We have performed semi-empirical molecular dynamics calculations of the electronic and molecular str...
Historically most materials in magnetic applications are based on inorganic materials. Recently, how...
Spin polarized muons are widely known as extremely sensitive local probes of magnetism. Muon spin ro...
Positive muons can be implanted into organic and molecular magnets in order to study their internal ...
A muon is an unstable spin-1/2 particle with a lifetime of 2.2 μs. Beams of spinpolarized positive m...
We present the results of recent muSR experiments on a variety of novel organic and molecular magnet...
Spin-polarized muons can be implanted in various molecular magnetic materials in order to measure st...
Muon spin rotation (μSR) experiments can be especially helpful in the study of various organic molec...
We present the results of mu SR experiments on a variety of molecular magnetic materials, either pur...
The moun-spin rotation also called moun-spin relaxation (μSR) technique is an extremely useful metho...
We present the results of recent muon-spin rotation (μSR) experiments on a variety of novel molecula...
We present the results of recent muon-spin rotation (μSR) experiments on a variety of novel molecula...
Most materials in magnetic applications are based on inorganic materials. Recently, however, organic...
Wholly organic ferromagnets are a new class of materials of great potential interest, but the early ...
We present the results of a muon-spin rotation/relaxation (mu SR) study in zero and longitudinal mag...
We have performed semi-empirical molecular dynamics calculations of the electronic and molecular str...
Historically most materials in magnetic applications are based on inorganic materials. Recently, how...
Spin polarized muons are widely known as extremely sensitive local probes of magnetism. Muon spin ro...
Positive muons can be implanted into organic and molecular magnets in order to study their internal ...
A muon is an unstable spin-1/2 particle with a lifetime of 2.2 μs. Beams of spinpolarized positive m...
We present the results of recent muSR experiments on a variety of novel organic and molecular magnet...
Spin-polarized muons can be implanted in various molecular magnetic materials in order to measure st...
Muon spin rotation (μSR) experiments can be especially helpful in the study of various organic molec...
We present the results of mu SR experiments on a variety of molecular magnetic materials, either pur...
The moun-spin rotation also called moun-spin relaxation (μSR) technique is an extremely useful metho...
We present the results of recent muon-spin rotation (μSR) experiments on a variety of novel molecula...
We present the results of recent muon-spin rotation (μSR) experiments on a variety of novel molecula...
Most materials in magnetic applications are based on inorganic materials. Recently, however, organic...
Wholly organic ferromagnets are a new class of materials of great potential interest, but the early ...
We present the results of a muon-spin rotation/relaxation (mu SR) study in zero and longitudinal mag...
We have performed semi-empirical molecular dynamics calculations of the electronic and molecular str...
Historically most materials in magnetic applications are based on inorganic materials. Recently, how...
Spin polarized muons are widely known as extremely sensitive local probes of magnetism. Muon spin ro...