Micro-transfer-printing is a key enabling technology for the heterogeneous integration of different materials and devices. The technique is particularly applicable to photonics where a typical system requires diverse arrays of components
An electrically pumped DFB laser integrated on and coupled to a silicon waveguide circuit is demonst...
We demonstrate a C-band optical transmitter with an integrated widely-tunable III-V-on-silicon laser...
Transfer printing refers to a set of techniques for deterministic assembly of functional micro/nano ...
Micro-transfer-printing is a key enabling technology for the heterogeneous integration of different ...
Micro-transfer-printing enables the intimate integration of a wide range of opto-electronic micro-co...
Silicon photonics (SiPh) enables compact photonic integrated circuits (PICs), showing superior perfo...
Transfer-printing provides a highly versatile methodology to heterogeneously and intimately integrat...
The essential functionality of photonic and electronic devices is contained in thin surface layers l...
Separating the substrate allows thin layers of III-V photonic semiconductor materials and devices to...
Silicon photonics (SiPh) is a disruptive technology in the field of integrated photonics and has exp...
Micro-transfer-printing (mu TP) enables the intimate integration of a variety of III-V opto-electron...
Photonic integrated circuits (PICs), implementing optical functions such as light generation, modula...
The heterogeneous integration of devices from multiple material platforms onto a single chip is demo...
The vertical micro-assembly of membrane photonic devices across a range of materials is presented, i...
Most Microelectromechanical Systems (MEMS) are primarily created using integrated circuit (IC) fabri...
An electrically pumped DFB laser integrated on and coupled to a silicon waveguide circuit is demonst...
We demonstrate a C-band optical transmitter with an integrated widely-tunable III-V-on-silicon laser...
Transfer printing refers to a set of techniques for deterministic assembly of functional micro/nano ...
Micro-transfer-printing is a key enabling technology for the heterogeneous integration of different ...
Micro-transfer-printing enables the intimate integration of a wide range of opto-electronic micro-co...
Silicon photonics (SiPh) enables compact photonic integrated circuits (PICs), showing superior perfo...
Transfer-printing provides a highly versatile methodology to heterogeneously and intimately integrat...
The essential functionality of photonic and electronic devices is contained in thin surface layers l...
Separating the substrate allows thin layers of III-V photonic semiconductor materials and devices to...
Silicon photonics (SiPh) is a disruptive technology in the field of integrated photonics and has exp...
Micro-transfer-printing (mu TP) enables the intimate integration of a variety of III-V opto-electron...
Photonic integrated circuits (PICs), implementing optical functions such as light generation, modula...
The heterogeneous integration of devices from multiple material platforms onto a single chip is demo...
The vertical micro-assembly of membrane photonic devices across a range of materials is presented, i...
Most Microelectromechanical Systems (MEMS) are primarily created using integrated circuit (IC) fabri...
An electrically pumped DFB laser integrated on and coupled to a silicon waveguide circuit is demonst...
We demonstrate a C-band optical transmitter with an integrated widely-tunable III-V-on-silicon laser...
Transfer printing refers to a set of techniques for deterministic assembly of functional micro/nano ...