We are embarked on a R&D journey to build a hybrid quantum processor using pulses of light and novel quantum materials.
The building block, or qubits, of our quantum computer are excitons formed in MOCHa materials.
Technology:
Excitons, light arrays, ultrafast, femtosecond, self-referencing, non-linear optics, zeptoseconds, multiphotons, coherent control
Publications
Publications:
- Strong-Field Atomic Phase Matching,Carlos Trallero-Herrero, J. L. Cohen, and Thomas Weinacht, Phys. Rev. Lett. 96, 063603 – Published 16 February 2006
- Transition from weak- to strong-field coherent control, Carlos Trallero-Herrero and Thomas C. Weinacht, Phys. Rev. A 75, 063401 – Published 1 June 2007
- Increased phase precision of spatial light modulators using irrational slopes: application to attosecond metrology, Geoffrey R. Harrison, Tobias Saule, Brandin Davis, and Carlos A. Trallero-Herrero, Applied Optics Vol. 61, Issue 30, pp. 8873-8879 (2022)
- Generation and control of non-local quantum equivalent extreme ultraviolet photons, Geoffrey R. Harrison, Tobias Saule, R. Esteban Goetz, George N. Gibson, Anh-Thu Le, Carlos A. Trallero-Herrero, arXiv:2305.17263 (2023)
- Quantum sensing in an exciton-polariton condensate, Jorge Chávez-Carlos, Daniela Garrido-Ramírez, A. J. Vega Carmona, Victor S. Batista, Francisco Pérez-Bernal, Carlos A. Trallero-Herrero, M. A. Bastarrachea-Magnani, Lea F. Santos, arXiv:2407.14590
Goals
R&D
Demonstrate exciton arrays as qubits
Exciton arrays for sensing and quantum computing
Products
Quantum simulator for large scale molecular dynamics
Remotely tuned quantum sensor
Ultimately, build a general purpose quantum computer that operates at temperatures > 77 K, and costs < $1M USD
Join the process
- We are raising capital
- Looking for personel
- Contact us
