5 research outputs found
Fabrication process of DNA hydrogels (ginkgo leaf) from Photothermal fabrication of microscale patterned DNA hydrogels
Fabrication process of DNA hydrogels with the shape of ginkgo leaf shown in Fig. 5 (c-iv)
Fabrication process of DNA hydrogels (Chinese character meaning “light”) from Photothermal fabrication of microscale patterned DNA hydrogels
Fabrication process of DNA hydrogels with the shape of Chinese character meaning “Light” shown in Fig. 5 (c-i)
Local creation of DNA hydrogels by light spot with 3.0 mW from Photothermal fabrication of microscale patterned DNA hydrogels
Creation process of DNA hydrogels shown in Fig. 4 (a)
Fabrication process of DNA hydrogels (“N”) from Photothermal fabrication of microscale patterned DNA hydrogels
Fabrication process of DNA hydrogels with “N” shape shown in Fig. 5 (c-iii)
Spatial-photonic Ising machine by space-division multiplexing with physically tunable coefficients of a multi-component model
This paper proposes a space-division multiplexed spatial-photonic Ising machine (SDM-SPIM) that physically calculates the weighted sum of the Ising Hamiltonians for individual components in a multi-component model. Space-division multiplexing enables tuning a set of weight coefficients as an optical parameter and obtaining the desired Ising Hamiltonian at a time. We solved knapsack problems to verify the system's validity, demonstrating that optical parameters impact the search property. We also investigated a new dynamic coefficient search algorithm to enhance search performance. The SDM-SPIM would physically calculate the Hamiltonian and a part of the optimization with an electronics process