[1] Sachdev S., “Quantum Phase Transitions”, Cambridge University Press, Cambridge (1999).
[2] Gu B., Su G., Gao S., Magnetic properties of J–J–J' quantum Heisenberg chains with spin S= 1/2, 1, 3/2 and 2 in a magnetic field, Journal of Physics: Condensed Matter 17,6081 (2005).
[3] Zhu L., Garst M., Rosch A., Si Q., Universally diverging Grüneisen parameter and the magnetocaloric effect close to quantum critical point, Phys. Rev. Lett.91, 066404 (2003).
[4] Tishin A. M., Spichkin Y. I., The magnetocaloric effect and its applications, Institute of Physics Publishing, Bristol, Philadelphia, (2003).
[5] Zhitomirsky M. E., Honecker A., Magnetocaloric effect in one-dimensional antiferromagnets, Theory and Experiment 07, P07012 (2004).
[6] Garst M., Rosch A., Sign change of the Grüneisen parameter and magnetocaloric effect near quantum critical points, Physical Review B 72, 205129 (2005).
[7] Ribeiro G. A. P., The magnetocaloric effect in integrable spin-s chains, Journal of Statistical Mechanics: Theory and Experiment, P12016 (2010).
[8] Trippe C., Honecker A., Klümper A., Ohanyan V., Exact calculation of the magnetocaloric effect in the spin-1/2 XXZ chain, Physical Review B 81, 054402 (2010).
[9] Wolf B, Tsui Y., Jaiswal-Nagar D., Tutsch U., Honecker A., Removic-Langer K., Magnetocaloric effect and magnetic cooling near a field-induced quantum-critical point, Proceedings of the National Academy of Sciences, 108, 6862-6866 (2011).
[10] Jahangiri J., Amiri F., Mahdavifar S., Thermodynamic behavior near the quantum orders in dimerized spin S=1/2 two-leg ladders, Journal of Magnetism and Magnetic Materials 439, 22-29 (2017).
[11] Merchant P., Normand B., Kramer K., Boehm M., Morrow D., and Ruegg C., Quantum and classical criticality in a dimerized quantum antiferromagnet, Nat. Phys. 10, 373 (2014).
[12] Schuberth E., Tippmann M., Steinke L., Lausberg S., Steppke A., Brando M., Krellner C., Geibel C., Yu R., Si Q., Emergence of superconductivity in the canonical heavy-electron metal YbRh2Si2, Science 351, 485 (2016).
[13] Wu J., Zhou F., and Wu C., Quantum criticality of bosonic systems with the Lifshitz dispersion, Phys. Rev. B 96, 085140 (2017).
[14]
Wu J.,
Zhu L.,
Si Q., Crossovers and critical scaling in the one-dimensional transverse-field Ising model,
Phys. Rev. B 97, 245127 (2018).
[15] Mancini M., “Fermionization of Spin Systems”, Thesis, (2008).
[16] Bogoliubov N., “On the theory of superfluidity.” J. Phys 11.1, 23 (1947).
[17] Mofidnakhaei F., Khastehdel Fumani F., Mahdavifar S., and Vahedi J., “Quantum correlations in anisotropic XY-spin chains in a transverse magnetic field”, Phase Transitions 91, no. 12 1256-1267 (2018).
[18] Zhitomirsky M. E., Tsunetsugu H., Exact low-temperature behavior of a kagome antiferromagnet at high-fields, Phys. Rev. B.70, 100403 (2004).
[19] Hasanzadeh J., Feiznejad Z., Mahdavifar S., Specific heat of the 1D spin-1/2 Ising model with added Dzyaloshinskii- Moriya interaction, J. Supercond. Nov. Magn. 27, 595, (2014).
[20] Amiri F., Mahdavifar S., Hadipour H., Shahri Naseri M., Thermodynamics of the spin-1/2 Two-leg ladder compound (C5H12N2)2CuBr4, J. Low Temp. Phys. 177, 203 (2014).