Kholmetskii, A. Et Al. 2016. Mossbauer experiments in a rotating system: The so-called "synchronization effect" to explain the extra energy shift between emitted and absorbed radiation constitutes a complete failure. ANNALS OF PHYSICS , vol.1, no.1 , 1.

Kholmetskii, A., Yarman, T., Yarman, O. U., & Arik, M., (2016). Mossbauer experiments in a rotating system: The so-called "synchronization effect" to explain the extra energy shift between emitted and absorbed radiation constitutes a complete failure. ANNALS OF PHYSICS , vol.1, no.1, 1.

Kholmetskii, Alexander Et Al. "Mossbauer experiments in a rotating system: The so-called "synchronization effect" to explain the extra energy shift between emitted and absorbed radiation constitutes a complete failure," ANNALS OF PHYSICS , vol.1, no.1, 1, 2016

Kholmetskii, Alexander Et Al. "Mossbauer experiments in a rotating system: The so-called "synchronization effect" to explain the extra energy shift between emitted and absorbed radiation constitutes a complete failure." ANNALS OF PHYSICS , vol.1, no.1, pp.1, 2016

Kholmetskii, A. Et Al. (2016) . "Mossbauer experiments in a rotating system: The so-called "synchronization effect" to explain the extra energy shift between emitted and absorbed radiation constitutes a complete failure." ANNALS OF PHYSICS , vol.1, no.1, p.1.

@article{article, author={Alexander Kholmetskii Et Al. }, title={Mossbauer experiments in a rotating system: The so-called "synchronization effect" to explain the extra energy shift between emitted and absorbed radiation constitutes a complete failure}, journal={ANNALS OF PHYSICS}, year=2016, pages={1} }