Expert perspectives on the future of quantum physics education at the secondary level

Philipp Bitzenbauer; Malte S. Ubben; Daria Anttila; Maria Bondani; Maria Luisa Chiofalo; Sergej Faletic; Simon Goorney; Franziska Greinert; Rainer Müller; Zdeňka Koupilová; Massimiliano Malgieri; Avraham Merzel; Henk J. Pol; Gesche Pospiech; Heike Kirsten Elisabeth Stadermann; Efraim Yehuda Weissman; Kim Krijtenburg-Lewerissa

doi:10.1103/d1yx-kfsz

Expert perspectives on the future of quantum physics education at the secondary level

Philipp Bitzenbauer^*
, Malte S. Ubben
, Daria Anttila
, Maria Bondani
, Maria Luisa Chiofalo
, Sergej Faletic
, Simon Goorney
, Franziska Greinert
, Rainer Müller
, Zdeňka Koupilová
, Massimiliano Malgieri
, Avraham Merzel
, Henk J. Pol
, Gesche Pospiech
, Heike Kirsten Elisabeth Stadermann
, Efraim Yehuda Weissman
, Kim Krijtenburg-Lewerissa^*

^*Corresponding author for this work

The Seymour Fox School of Education

Research output: Contribution to journal › Article › peer-review

Abstract

As quantum technologies increasingly impact society and the workforce, there is a growing need to integrate quantum physics (QP) education into all levels of the curriculum, including secondary education. However, despite increasing interest, there is little consensus on which topics should be covered and to what depth. This study addresses this issue by exploring experts’ perspectives on the future of QP education at the secondary school level. Using an adapted Delphi method, we conducted three rounds of surveys with a diverse panel of quantum physics and physics education experts. The study aimed to identify the most appropriate QP concepts for inclusion in secondary school curricula and the instructional level at which they should be taught. The findings show strong expert support for including foundational QP topics, such as quantum interference, superposition, and quantum measurement, taught at a conceptual rather than a mathematical level. More advanced topics related to quantum technologies were widely deemed unsuitable for the secondary school. These results are consistent with existing national curricula and provide valuable insights into current perspectives on QP education, reinforcing the importance of core quantum physics concepts in secondary education. These insights lay the groundwork for further research into the future direction of quantum education and support the integration of quantum technologies into secondary school curricula.

Original language	English
Article number	020157
Journal	Physical Review Physics Education Research
Volume	21
Issue number	2
DOIs	https://doi.org/10.1103/d1yx-kfsz
State	Published - Jul 2025

Bibliographical note

Publisher Copyright:
© 2025 authors. Published by the American Physical Society.

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Bitzenbauer, P., Ubben, M. S., Anttila, D., Bondani, M., Chiofalo, M. L., Faletic, S., Goorney, S., Greinert, F., Müller, R., Koupilová, Z., Malgieri, M., Merzel, A., Pol, H. J., Pospiech, G., Stadermann, H. K. E., Weissman, E. Y., & Krijtenburg-Lewerissa, K. (2025). Expert perspectives on the future of quantum physics education at the secondary level. Physical Review Physics Education Research, 21(2), Article 020157. https://doi.org/10.1103/d1yx-kfsz

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title = "Expert perspectives on the future of quantum physics education at the secondary level",

abstract = "As quantum technologies increasingly impact society and the workforce, there is a growing need to integrate quantum physics (QP) education into all levels of the curriculum, including secondary education. However, despite increasing interest, there is little consensus on which topics should be covered and to what depth. This study addresses this issue by exploring experts{\textquoteright} perspectives on the future of QP education at the secondary school level. Using an adapted Delphi method, we conducted three rounds of surveys with a diverse panel of quantum physics and physics education experts. The study aimed to identify the most appropriate QP concepts for inclusion in secondary school curricula and the instructional level at which they should be taught. The findings show strong expert support for including foundational QP topics, such as quantum interference, superposition, and quantum measurement, taught at a conceptual rather than a mathematical level. More advanced topics related to quantum technologies were widely deemed unsuitable for the secondary school. These results are consistent with existing national curricula and provide valuable insights into current perspectives on QP education, reinforcing the importance of core quantum physics concepts in secondary education. These insights lay the groundwork for further research into the future direction of quantum education and support the integration of quantum technologies into secondary school curricula.",

author = "Philipp Bitzenbauer and Ubben, \{Malte S.\} and Daria Anttila and Maria Bondani and Chiofalo, \{Maria Luisa\} and Sergej Faletic and Simon Goorney and Franziska Greinert and Rainer M{\"u}ller and Zde{\v n}ka Koupilov{\'a} and Massimiliano Malgieri and Avraham Merzel and Pol, \{Henk J.\} and Gesche Pospiech and Stadermann, \{Heike Kirsten Elisabeth\} and Weissman, \{Efraim Yehuda\} and Kim Krijtenburg-Lewerissa",

note = "Publisher Copyright: {\textcopyright} 2025 authors. Published by the American Physical Society.",

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doi = "10.1103/d1yx-kfsz",

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Bitzenbauer, P, Ubben, MS, Anttila, D, Bondani, M, Chiofalo, ML, Faletic, S, Goorney, S, Greinert, F, Müller, R, Koupilová, Z, Malgieri, M, Merzel, A, Pol, HJ, Pospiech, G, Stadermann, HKE, Weissman, EY & Krijtenburg-Lewerissa, K 2025, 'Expert perspectives on the future of quantum physics education at the secondary level', Physical Review Physics Education Research, vol. 21, no. 2, 020157. https://doi.org/10.1103/d1yx-kfsz

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T1 - Expert perspectives on the future of quantum physics education at the secondary level

AU - Bitzenbauer, Philipp

AU - Ubben, Malte S.

AU - Anttila, Daria

AU - Bondani, Maria

AU - Chiofalo, Maria Luisa

AU - Faletic, Sergej

AU - Goorney, Simon

AU - Greinert, Franziska

AU - Müller, Rainer

AU - Koupilová, Zdeňka

AU - Malgieri, Massimiliano

AU - Merzel, Avraham

AU - Pol, Henk J.

AU - Pospiech, Gesche

AU - Stadermann, Heike Kirsten Elisabeth

AU - Weissman, Efraim Yehuda

AU - Krijtenburg-Lewerissa, Kim

PY - 2025/7

Y1 - 2025/7

N2 - As quantum technologies increasingly impact society and the workforce, there is a growing need to integrate quantum physics (QP) education into all levels of the curriculum, including secondary education. However, despite increasing interest, there is little consensus on which topics should be covered and to what depth. This study addresses this issue by exploring experts’ perspectives on the future of QP education at the secondary school level. Using an adapted Delphi method, we conducted three rounds of surveys with a diverse panel of quantum physics and physics education experts. The study aimed to identify the most appropriate QP concepts for inclusion in secondary school curricula and the instructional level at which they should be taught. The findings show strong expert support for including foundational QP topics, such as quantum interference, superposition, and quantum measurement, taught at a conceptual rather than a mathematical level. More advanced topics related to quantum technologies were widely deemed unsuitable for the secondary school. These results are consistent with existing national curricula and provide valuable insights into current perspectives on QP education, reinforcing the importance of core quantum physics concepts in secondary education. These insights lay the groundwork for further research into the future direction of quantum education and support the integration of quantum technologies into secondary school curricula.

AB - As quantum technologies increasingly impact society and the workforce, there is a growing need to integrate quantum physics (QP) education into all levels of the curriculum, including secondary education. However, despite increasing interest, there is little consensus on which topics should be covered and to what depth. This study addresses this issue by exploring experts’ perspectives on the future of QP education at the secondary school level. Using an adapted Delphi method, we conducted three rounds of surveys with a diverse panel of quantum physics and physics education experts. The study aimed to identify the most appropriate QP concepts for inclusion in secondary school curricula and the instructional level at which they should be taught. The findings show strong expert support for including foundational QP topics, such as quantum interference, superposition, and quantum measurement, taught at a conceptual rather than a mathematical level. More advanced topics related to quantum technologies were widely deemed unsuitable for the secondary school. These results are consistent with existing national curricula and provide valuable insights into current perspectives on QP education, reinforcing the importance of core quantum physics concepts in secondary education. These insights lay the groundwork for further research into the future direction of quantum education and support the integration of quantum technologies into secondary school curricula.

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Expert perspectives on the future of quantum physics education at the secondary level

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