XANADU QUANTUM TECH INC has a total of 20 patent applications. Its first patent ever was published in 2018. It filed its patents most often in United States, Canada and EPO (European Patent Office). Its main competitors in its focus markets optics, computer technology and telecommunications are TIANJIN LINGXIN TECH DEVELOPMENT CO LTD, CODEON CORP and SDL INTEGRATED OPTICS LTD.
# | Country | Total Patents | |
---|---|---|---|
#1 | United States | 8 | |
#2 | Canada | 5 | |
#3 | EPO (European Patent Office) | 3 | |
#4 | WIPO (World Intellectual Property Organization) | 3 | |
#5 | China | 1 |
# | Industry | |
---|---|---|
#1 | Optics | |
#2 | Computer technology | |
#3 | Telecommunications | |
#4 | Measurement |
# | Technology | |
---|---|---|
#1 | Nonlinear optics | |
#2 | Optical systems | |
#3 | Specific computer systems | |
#4 | Transmission | |
#5 | Optical computing devices | |
#6 | Selecting | |
#7 | Electric digital data processing | |
#8 | Scanning-probe techniques |
# | Name | Total Patents |
---|---|---|
#1 | Vernon Zachary | 14 |
#2 | Morrison Blair | 9 |
#3 | Tan Kang | 8 |
#4 | Menotti Matteo | 8 |
#5 | Quesada Nicolas | 5 |
#6 | Bradler Kamil | 5 |
#7 | Dhand Ish | 5 |
#8 | Mahler Dylan | 5 |
#9 | Sipe John | 4 |
#10 | Qi Haoyu | 4 |
Publication | Filing date | Title |
---|---|---|
US2021096443A1 | Apparatus and methods for implementing arbitrary unitary transformations on optical modes via a rectangular architecture | |
CA3094544A1 | Management of power consumption in optical circuits for quantum computing | |
US2021096384A1 | Methods and apparatus for mitigating imperfections in optical circuits | |
US2021033640A1 | Apparatus and methods for quantum beam tracking | |
WO2020232546A1 | Apparatus and methods for gaussian boson sampling | |
CA3055860A1 | Apparatus and methods for generating non-gaussian states from gaussian states | |
EP3814838A1 | Systems and methods for nonlinear optical light generation using linearly uncoupled resonators in integrated photonic devices | |
US2020401920A1 | Apparatus and methods for quantum computing and machine learning | |
CA3093174A1 | Integrated devices for squeezed light generation | |
US2019056632A1 | Methods and apparatus for producing highly tunable squeezed light |