top | item 45281843 SpikingBrain Technical Spiking Brain-Inspired Large Models 3 points| knrz | 5 months ago |arxiv.org 2 comments order hn newest westurner|5 months ago "Researchers get spiking neural behavior out of a pair of transistors" (2025) https://news.ycombinator.com/item?id=43506198What are the ways to get spiking behavior out of integrated nanophotonics?Saturable Absorption (excitable semiconductor lasers, graphene laser cavity,), NDR Negative Differential Resistance (RTD Resonant Tunneling Diodes,), PCM: Phase-change materials (DVD-RW,),Metamaterials and metasurfaces are probably useful for extreme nonlinear spiking neuromorphic computing with integrated nanophotonics.What about Optical rogue waves, Supercontinuum generation (color, wave division multiplexing, ); and/or Superradiance (as nonlinear optical effects for a neuromorphic computation platform)? ... https://news.ycombinator.com/item?id=41684444 westurner|5 months ago Superradiance: https://en.wikipedia.org/wiki/Superradiance :> Superradiance has since been demonstrated in a wide variety of physical and chemical systems, such as quantum dot arrays [4] and J-aggregates. [5] This effect has been used to produce a superradiant laser.Superradiance in semiconductor optics -> Coherent effects in semiconductor optics > Superradiance of excitons: https://en.wikipedia.org/wiki/Coherent_effects_in_semiconduc...
westurner|5 months ago "Researchers get spiking neural behavior out of a pair of transistors" (2025) https://news.ycombinator.com/item?id=43506198What are the ways to get spiking behavior out of integrated nanophotonics?Saturable Absorption (excitable semiconductor lasers, graphene laser cavity,), NDR Negative Differential Resistance (RTD Resonant Tunneling Diodes,), PCM: Phase-change materials (DVD-RW,),Metamaterials and metasurfaces are probably useful for extreme nonlinear spiking neuromorphic computing with integrated nanophotonics.What about Optical rogue waves, Supercontinuum generation (color, wave division multiplexing, ); and/or Superradiance (as nonlinear optical effects for a neuromorphic computation platform)? ... https://news.ycombinator.com/item?id=41684444 westurner|5 months ago Superradiance: https://en.wikipedia.org/wiki/Superradiance :> Superradiance has since been demonstrated in a wide variety of physical and chemical systems, such as quantum dot arrays [4] and J-aggregates. [5] This effect has been used to produce a superradiant laser.Superradiance in semiconductor optics -> Coherent effects in semiconductor optics > Superradiance of excitons: https://en.wikipedia.org/wiki/Coherent_effects_in_semiconduc...
westurner|5 months ago Superradiance: https://en.wikipedia.org/wiki/Superradiance :> Superradiance has since been demonstrated in a wide variety of physical and chemical systems, such as quantum dot arrays [4] and J-aggregates. [5] This effect has been used to produce a superradiant laser.Superradiance in semiconductor optics -> Coherent effects in semiconductor optics > Superradiance of excitons: https://en.wikipedia.org/wiki/Coherent_effects_in_semiconduc...
westurner|5 months ago
What are the ways to get spiking behavior out of integrated nanophotonics?
Saturable Absorption (excitable semiconductor lasers, graphene laser cavity,), NDR Negative Differential Resistance (RTD Resonant Tunneling Diodes,), PCM: Phase-change materials (DVD-RW,),
Metamaterials and metasurfaces are probably useful for extreme nonlinear spiking neuromorphic computing with integrated nanophotonics.
What about Optical rogue waves, Supercontinuum generation (color, wave division multiplexing, ); and/or Superradiance (as nonlinear optical effects for a neuromorphic computation platform)? ... https://news.ycombinator.com/item?id=41684444
westurner|5 months ago
> Superradiance has since been demonstrated in a wide variety of physical and chemical systems, such as quantum dot arrays [4] and J-aggregates. [5] This effect has been used to produce a superradiant laser.
Superradiance in semiconductor optics -> Coherent effects in semiconductor optics > Superradiance of excitons: https://en.wikipedia.org/wiki/Coherent_effects_in_semiconduc...