TY - JOUR
T1 - Magnetic chirality probed by polarized neutrons and neutron spin echo spectroscopy
AU - Pappas, Catherine
AU - Lelièvre-Berna, Eddy
AU - Ehlers, Georg
N1 - Publisher Copyright:
© 2024
PY - 2024
Y1 - 2024
N2 - We discuss the interaction between a polarized neutron beam and chiral magnetism with emphasis on magnetic chirality. Without any loss of generality, we adopt a simple approach to formalism that pinpoints to the salient features of chiral magnetic scattering and can be easily used to plan and interpret experiments. We also discuss the unique information that can be derived on the topology of chiral magnetic correlations and consider the example of the skyrmion hosting system MnSi. This is one of the most simple realisations of chiral magnetism and at the same time a system, where the interaction between magnetic chirality and a polarized neutron beam is most clearly noticeable. In a next step we address the interplay between chiral magnetism and paramagnetic Neutron Spin Echo spectroscopy and then focus on the ferromagnetic Spin Echo method, which has not been discussed in the literature so far. Finally, we discuss the implications of the vector nature of the (dipole) interaction between a neutron beam polarization and a magnetic sample for the quantum mechanical description of Larmor precession-based methods.
AB - We discuss the interaction between a polarized neutron beam and chiral magnetism with emphasis on magnetic chirality. Without any loss of generality, we adopt a simple approach to formalism that pinpoints to the salient features of chiral magnetic scattering and can be easily used to plan and interpret experiments. We also discuss the unique information that can be derived on the topology of chiral magnetic correlations and consider the example of the skyrmion hosting system MnSi. This is one of the most simple realisations of chiral magnetism and at the same time a system, where the interaction between magnetic chirality and a polarized neutron beam is most clearly noticeable. In a next step we address the interplay between chiral magnetism and paramagnetic Neutron Spin Echo spectroscopy and then focus on the ferromagnetic Spin Echo method, which has not been discussed in the literature so far. Finally, we discuss the implications of the vector nature of the (dipole) interaction between a neutron beam polarization and a magnetic sample for the quantum mechanical description of Larmor precession-based methods.
KW - Chiral magnetism
KW - Neutron spin echo spectroscopy
KW - Polarized neutron scattering
UR - http://www.scopus.com/inward/record.url?scp=85204182657&partnerID=8YFLogxK
U2 - 10.1016/bs.hmm.2024.08.002
DO - 10.1016/bs.hmm.2024.08.002
M3 - Article
AN - SCOPUS:85204182657
SN - 1567-2719
JO - Handbook of Magnetic Materials
JF - Handbook of Magnetic Materials
ER -