Abstract
A modification of inertia (called MiHsC or quantized inertia) has been proposed that assumes that inertia is caused by Unruh radiation, and that this radiation is made inhomogeneous in space by either Rindler horizons caused by acceleration or the distant Hubble horizon. The former predicts the standard inertial mass, and the latter predicts galaxy rotation without dark matter and cosmic acceleration without dark energy. It is proposed here that this model can be derived in an alternative way by assuming that the sum of mass (M), energy (E) and the information content of horizons (I) is conserved (EMI) so that mass–energy is released in a discrete manner when the area of a Rindler horizon reduces. This model could be tested by looking for the quantization of inertial mass and acceleration at very high accelerations, and may provide an explanation for the cosmological constant problem.
DOI
10.1142/S0217732317501486
Publication Date
2017-09-14
Publication Title
Modern Physics Letters A
Volume
32
Issue
28
Publisher
World Scientific Pub Co Pte Lt
ISSN
1793-6632
Embargo Period
2024-11-22
First Page
1750148
Last Page
1750148
Recommended Citation
McCulloch, M., & Giné, J. (2017) 'Modified inertial mass from information loss', Modern Physics Letters A, 32(28), pp. 1750148-1750148. World Scientific Pub Co Pte Lt: Available at: https://doi.org/10.1142/S0217732317501486