Add to ORKGUp until recently, the terahertz frequency range (0.3 to 3THz) has been mostly addressed by high-mobility custom III-V processes, bulky and expensive nonlinear optics, or cryogenically cooled quantum cascade lasers. A low-cost room temperature alternative will enable a wide range of applications in security, defense, ultra-high-speed wireless communication, sensors, and biomedical imaging not currently accessible due to cost and size limitations. CMOS can potentially provide such a low-cost platform, but it requires novel techniques and architectures to generate, manipulate, radiate, and detect signals above transistor f_(max), which are in the sub-THz frequency region in most of today's nodes
Imaging arrays of direct detectors in the 0.5-5 THz range are being experimentally developed. Terahe...
Summary form of only given: In this paper, we present a single chip cross-layer approach for a new c...
Terahertz gap corresponding to the frequency band of 0.3-3.0 THz is historically the last unexplored...
There is a growing interest in terahertz and mm-wave systems for compact, low cost and energy effici...
THz or submillimetre-wave sensing covers the frequency range from 300 GHz to 10 THz (wavelengths fro...
There is a growing interest in terahertz and mm-wave systems for compact, low cost and energy effici...
With the continuing scaling of CMOS nodes and increases in operation frequency of RF integrated circ...
© 2018 IEEE. CMOS transistors have become nanometer devices and operating frequencies (fmax) of tran...
Terahertz (frequencies ranged from 300GHz to 3THz) imaging and spectroscopic systems have drawn incr...
Advances in silicon integrated electronics have enabled many significant systems and applications in...
The terahertz frequency spectrum is gaining increasing interest due to its intriguing applications i...
Terahertz (THz) systems open up the possibility of new applications of electromagnetic waves. Enormo...
With the continuing scaling of CMOS nodes and increases in operation frequency of RF integrated circ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Imaging arrays of direct detectors in the 0.5-5 THz range are being experimentally developed. Terahe...
Imaging arrays of direct detectors in the 0.5-5 THz range are being experimentally developed. Terahe...
Summary form of only given: In this paper, we present a single chip cross-layer approach for a new c...
Terahertz gap corresponding to the frequency band of 0.3-3.0 THz is historically the last unexplored...
There is a growing interest in terahertz and mm-wave systems for compact, low cost and energy effici...
THz or submillimetre-wave sensing covers the frequency range from 300 GHz to 10 THz (wavelengths fro...
There is a growing interest in terahertz and mm-wave systems for compact, low cost and energy effici...
With the continuing scaling of CMOS nodes and increases in operation frequency of RF integrated circ...
© 2018 IEEE. CMOS transistors have become nanometer devices and operating frequencies (fmax) of tran...
Terahertz (frequencies ranged from 300GHz to 3THz) imaging and spectroscopic systems have drawn incr...
Advances in silicon integrated electronics have enabled many significant systems and applications in...
The terahertz frequency spectrum is gaining increasing interest due to its intriguing applications i...
Terahertz (THz) systems open up the possibility of new applications of electromagnetic waves. Enormo...
With the continuing scaling of CMOS nodes and increases in operation frequency of RF integrated circ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Imaging arrays of direct detectors in the 0.5-5 THz range are being experimentally developed. Terahe...
Imaging arrays of direct detectors in the 0.5-5 THz range are being experimentally developed. Terahe...
Summary form of only given: In this paper, we present a single chip cross-layer approach for a new c...
Terahertz gap corresponding to the frequency band of 0.3-3.0 THz is historically the last unexplored...