What question did this study set out to answer?

Investigate the properties of dipositronium and its collective spin protection in quantum systems.

May 26, 2026Open Access

Collective Protection and Exchange-Summed No-Jump Survival in Dipositronium

Puntos clave

Investigate the properties of dipositronium and its collective spin protection in quantum systems.
Analyzed the decoherence-free subspace related to dipositronium interactions.
Used a pair picture to conceptualize collective-spin protected sectors.
Explored annihilation processes involving electron-positron pairs.
Identified that dipositronium demonstrates nontrivial survival characteristics due to unique pair interactions.
Showed that true molecular positronium (Ps2) lacks permanent electron-positron pairs, complicating annihilation summation.

Resumen

A decoherence-free subspace is protected only relative to the channel algebra used to define it, as in the standard DFS literature of Zanardi and Rasetti, Lidar, Chuang, and Whaley, and later DFS/subsystem reviews. Dipositronium provides a compact setting in which that qualification becomes nontrivial. A fixed-pair picture of two positronium atoms suggests a simple collective-spin protected sector, but true molecular Ps2, consisting of two electrons and two positrons, has no permanent electron-positron pairs. The electrons are identical, the positrons are identical, and annihilation must be summed over all electron-positron contacts.

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