Add to ORKGWe investigate encoding and decoding of two-dimensional information using the orbital angular momentum (OAM) of light. Spiral phase plates and phase-only spatial light modulators are used in encoding and decoding of OAM states, respectively. We show that off-axis points and spatial variables encoded with a given OAM state can be recovered through decoding with the corresponding complimentary OAM state
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We investigate encoding and decoding of two-dimensional information using the orbital angular moment...
Encoding/decoding off-axis points with discrete orbital angular momentum (OAM) modes is investigated...
Encoding/decoding off-axis points with discrete orbital angular momentum (OAM) modes is investigated...
Three-dimensional (3D) displays project 3D images that give 3D perceptions and mimic real-world obje...
The orthogonal nature of different orbital angular momentum modes enables information transmission i...
The orthogonal nature of different orbital angular momentum modes enables information transmission i...
The orthogonal nature of different orbital angularmomentummodes enables information transmission in ...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We investigate encoding and decoding of two-dimensional information using the orbital angular moment...
Encoding/decoding off-axis points with discrete orbital angular momentum (OAM) modes is investigated...
Encoding/decoding off-axis points with discrete orbital angular momentum (OAM) modes is investigated...
Three-dimensional (3D) displays project 3D images that give 3D perceptions and mimic real-world obje...
The orthogonal nature of different orbital angular momentum modes enables information transmission i...
The orthogonal nature of different orbital angular momentum modes enables information transmission i...
The orthogonal nature of different orbital angularmomentummodes enables information transmission in ...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...
We develop a method to characterize arbitrary superpositions of light orbital angular momentum (OAM)...