This article describes a tool for teaching quantum computing to students of the Institute of Information Technologies and Technology Education (3rd year of the Herzen University), which is an emulator of the Bloch sphere. The authors list the types of tasks that are solved by students using the emulator in a real educational process and give solutions to three educational tasks.
Keywords: learning content, teaching aids, domain-specific software environments,
quantum computing, Bloch sphere, state vector; Z-Y-, Z-X-, X-Y-, Z-Y-X-decompositions.
References
1. Dushkin R. V. Kvantovye vychisleniya i funktsional’noe programmirovanie. M.: DMK Press, 2015. 232 s.
2. Kaye F., Laflamm R., Moska M. Vvedenie v kvantovye vychisleniya. M.-Izhevsk: NITS «Regulyarnaya i khaoticheskaya dinamika», 2009. 360 s.
3. Kalachev A. A. Kvantovaya informatsiya v zadachakh. Kazan’: Kazanskiy universitet, 2012. 48 s.
4. Koke V., Kissindzher A. Izobrazhenie kvantovykh protsessov. M.: DMK-Press, 2019. 880 s.
5. Nil’sen M., Chang I. Kvantovye vychisleniya i kvantovaya informatsiya. M.: Mir, 2006. 824 s.
6. Prilipko V. K., Kovalenko I. I. Fizicheskie osnovy kvantovykh vychisleniy. Dinamika kubita. SPb.: Izdatel’stvo «Lan’», 2019. 216 s.
7. Robert I. V. Sovremennye informatsionnye tekhnologii v obrazovanii: didakticheskie problemy; perspektivy ispol’zovaniya. M.: Shkola-Press, 1994. 205 s.
8. Stib V.-Kh., Khardi Y. Zadachi i ikh resheniya v kvantovykh vychisleniyakh i kvantovoy teorii informatsii. M.-Izhevsk: NITS «Regulyarnaya i khaoticheskaya dinamika», 2007. 296 s.
9. Bloch F. Nuclear induction // Phys. Rev., 1946 (Oct), 70 (7-8).
10. Makela Messina A. N-qubit states as points on the Bloch sphere. ArXiv: 09100630v2 [quant-ph], Oct, 2010.
