Classifying Beamsplitters

1. Classifying Beamsplitters Adam Bouland

2. Boson/Fermion Model M modes

3. Boson/Fermion Model

4. Boson/Fermion Model

5. Beamsplitters • Def: A set of beamsplitters is universal if it densely generates SU(m) or SO(m) on m modes.

6. Beamsplitters • Def: A set of beamsplitters is universal if it densely generates SU(m) or SO(m) on m modes. Q: Which sets of beamsplitters are universal?

7. Beamsplitters • Obviously not universal:

8. Beamsplitters • Obviously not universal: • Not obvious:

9. Real Beamsplitters Thm: [B. Aaronson ’12] Any real nontrivial beamsplitter is universal on ≥3 modes.

10. Real Beamsplitters Thm: [B. Aaronson ’12] Any real nontrivial beamsplitter is universal on ≥3 modes. What about complex beamsplitters?

11. Complex Beamsplitters Goal: Any non-trivial (complex) beamsplitter is universal on ≥3 modes.

12. Complex Beamsplitters Goal: Any non-trivial (complex) beamsplitter is universal on ≥3 modes. Can show: Any non-trivial beamsplitter generates a continuous group on ≥3 modes.

13. Complex Beamsplitters Determinant ±1

14. Complex Beamsplitters

15. Complex Beamsplitters Let G=<R1,R2,R3>

16. Complex Beamsplitters

17. Complex Beamsplitters Subgroups of SU(3): 6 infinite families 12 exceptional groups

18. Complex Beamsplitters Subgroups of SU(3): 6 infinite families 12 exceptional groups

19. Complex Beamsplitters Let G=<R1,R2,R3> Lemma: If G is discrete, R1,R2,R3 form an irreducible representation of G.

20. Complex Beamsplitters

21. Complex Beamsplitters

22. Complex Beamsplitters Δ(6n2)

23. Complex Beamsplitters Δ(6n2) Algebraic Number Theory

24. Open questions • Can we complete the proof to show any beamsplitter is universal? • Can we extend this to multi-mode beamsplitters? • What if the beamsplitter applies a phase as well?

25. Questions ?