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Meeting	2025 TMS Annual Meeting & Exhibition
Symposium	Neutron and X-ray Scattering in Materials Science and Engineering
Presentation Title	The Invar Effect Explained by Nuclear Resonant X-ray Scattering from Phonons and Spins
Author(s)	Brent T. Fultz, Stefan Lohaus, Pedro Guzman
On-Site Speaker (Planned)	Brent T. Fultz
Abstract Scope	Nuclear resonant inelastic x-ray scattering (NRIXS) measures phonon spectra and nuclear forward scattering (NFS) measures magnetism of ⁵⁷Fe. These NRIXS and NFS data give the vibrational entropy, S_vib, and magnetic entropy, S_mag, respectively. A Maxwell relationship requires that the change in entropy with pressure, ∂S/∂P, equals -∂V/∂T, which is the thermal expansion (times V). Invar, Fe₆₄Ni₃₆, has zero thermal expansion at 300 K. The pressure dependences of S_mag and S_vib were obtained from ⁵⁷Fe₆₄Ni₃₆ Invar in a diamond anvil cell. Magnetic disorder increases with pressure, so ∂S_mag/∂P is positive. Vibrational frequencies increase with pressure, so ∂S_vib/∂P is negative. These spin and phonon contributions to thermal expansion cancel precisely at pressures below 3 GPa, giving the Invar effect. The alloy Fe₅₅Ni₄₅ has zero thermal expansion at pressures between 7 and 13 GPa. New data show this pressure-induced Invar effect has the same origin in a delicate balance of spins and phonons.
Proceedings Inclusion?	Planned:
Keywords	Magnetic Materials, Phase Transformations,

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