Establishing Coherent Momentum-Space Electronic States in Locally Ordered Materials

Kavli Affiliate: Alessandra Lanzara | First 5 Authors: Samuel T. Ciocys, Quentin Marsal, Paul Corbae, Daniel Varjas, Ellis Kennedy | Summary: In our understanding of solids, the formation of highly spatially coherent electronic states, fundamental to command the quantum behavior of materials, relies on the existence of discrete translational symmetry of the crystalline lattice. In […]


Continue.. Establishing Coherent Momentum-Space Electronic States in Locally Ordered Materials

Establishing Coherent Momentum-Space Electronic States in Locally Ordered Materials

Kavli Affiliate: Alessandra Lanzara | First 5 Authors: Samuel T. Ciocys, Quentin Marsal, Paul Corbae, Daniel Varjas, Ellis Kennedy | Summary: In our understanding of solids, the formation of highly spatially coherent electronic states, fundamental to command the quantum behavior of materials, relies on the existence of discrete translational symmetry of the crystalline lattice. In […]


Continue.. Establishing Coherent Momentum-Space Electronic States in Locally Ordered Materials

Establishing Coherent Momentum-Space Electronic States in Locally Ordered Materials

Kavli Affiliate: Alessandra Lanzara | First 5 Authors: Samuel T. Ciocys, Quentin Marsal, Paul Corbae, Daniel Varjas, Ellis Kennedy | Summary: In our understanding of solids, the formation of highly spatially coherent electronic states, fundamental to command the quantum behavior of materials, relies on the existence of discrete translational symmetry of the crystalline lattice. In […]


Continue.. Establishing Coherent Momentum-Space Electronic States in Locally Ordered Materials

Improved noise performance from the next-generation buried-channel p-Mosfet SiSeROs

Kavli Affiliate: Gregory Prigozhin | First 5 Authors: Tanmoy Chattopadhyay, Sven Herrmann, Matthew Kaplan, Peter Orel, Kevan Donlon | Summary: The Single electron Sensitive Read Out (SiSeRO) is a novel on-chip charge detector output stage for charge-coupled device (CCD) image sensors. Developed at MIT Lincoln Laboratory, this technology uses a p-MOSFET transistor with a depleted […]


Continue.. Improved noise performance from the next-generation buried-channel p-Mosfet SiSeROs

Improved noise performance from the next-generation buried-channel p-Mosfet SiSeROs

Kavli Affiliate: Gregory Prigozhin | First 5 Authors: Tanmoy Chattopadhyay, Sven Herrmann, Matthew Kaplan, Peter Orel, Kevan Donlon | Summary: The Single electron Sensitive Read Out (SiSeRO) is a novel on-chip charge detector output stage for charge-coupled device (CCD) image sensors. Developed at MIT Lincoln Laboratory, this technology uses a p-MOSFET transistor with a depleted […]


Continue.. Improved noise performance from the next-generation buried-channel p-Mosfet SiSeROs

Improved noise performance from the next-generation buried-channel p-Mosfet SiSeROs

Kavli Affiliate: Gregory Prigozhin | First 5 Authors: Tanmoy Chattopadhyay, Sven Herrmann, Matthew Kaplan, Peter Orel, Kevan Donlon | Summary: The Single electron Sensitive Read Out (SiSeRO) is a novel on-chip charge detector output stage for charge-coupled device (CCD) image sensors. Developed at MIT Lincoln Laboratory, this technology uses a p-MOSFET transistor with a depleted […]


Continue.. Improved noise performance from the next-generation buried-channel p-Mosfet SiSeROs

Improved noise performance from the next-generation buried-channel p-Mosfet SiSeROs

Kavli Affiliate: R. Glenn Morris | First 5 Authors: Tanmoy Chattopadhyay, Sven Herrmann, Matthew Kaplan, Peter Orel, Kevan Donlon | Summary: The Single electron Sensitive Read Out (SiSeRO) is a novel on-chip charge detector output stage for charge-coupled device (CCD) image sensors. Developed at MIT Lincoln Laboratory, this technology uses a p-MOSFET transistor with a […]


Continue.. Improved noise performance from the next-generation buried-channel p-Mosfet SiSeROs