Project Details
SPP 2314: INtegrated TERahErtz sySTems Enabling Novel Functionality (INTEREST)”
Subject Area
Computer Science, Systems and Electrical Engineering
Physics
Physics
Term
since 2022
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 441886548
The vision of the INTEREST SPP is to establish a well-defined terahertz community by following a holistic ‘integration’ approach in a dedicated coordinated initiative. The theme ‘Integrated Terahertz Systems’ will enable unseen functionalities and applications in the field of terahertz science and technologies. To accomplish this aim, effective scientific coordination is essential. With this coordination proposal, we not only bring together experts in engineering, physical and natural sciences to invent ground-breaking THz technologies, but we further create synergies and cross-fertilize the activities to maximize the impact of the research programs on the national and international level. This is done by establishing a collaboration platform and database to share equipment, project results, and novel THz components within the consortium and outside the SPP. We will form mutual science groups within the SPP to further research exploratory system concepts and demonstrate innovative ideas beyond what used to be proposed by the individual partners. We create an international scientific advisory board to guide our activities and we reach out to other THz science communities, e.g. by establishing a Germany-UK partnership, joint scientific publications, organizing workshops, moderating a website, and communication through social media channels. Early career and gender issues are addressed by promoting female candidates and family-friendly policies. With all this, we aim to foster the INTEREST SPP for breaking through the existing barriers that are still isolating existing scientific communities today.
DFG Programme
Priority Programmes
International Connection
Japan, United Kingdom
Projects
- An integrated gas spectroscopy system -- combining TeraFETs and THz QCLs to enable 2--5-THz power detection and heterodyne mixing (Applicant Roskos, Hartmut G. )
- Coherent THz emission from an array of resonant tunneling diodes (RTDs) mediated by a strong-coupling Fabry-Perot cavity (Applicant Roskos, Hartmut G. )
- Coordination Funds (Applicant Pfeiffer, Ullrich )
- Integrated graphene-on-chip terahertz technology (INTEGRATECH) (Applicants Gensch, Michael ; Pfeiffer, Ullrich ; Turchinovich, Ph.D., Dmitry )
- Integrated THz time-domain spectrometer for space applications (ITISA) (Applicants Gensch, Michael ; Kampfrath, Tobias ; Plettemeier, Dirk )
- LATINO - Large area THz-detector arrays enabled by thin-film technology (Applicants Neumaier, Daniel ; Pfeiffer, Ullrich ; Riedl, Thomas )
- Micro-integrated terahertz quantum-cascade laser for high-resolution spectroscopy (Micro-QCL) (Applicants Biermann, Ph.D., Klaus ; Hübers, Heinz-Wilhelm ; Paschke, Katrin )
- Microfluidic Active-Feedback THz Biosensor for Direct, Sensitive and Selective Exosome and Virus Detection in Aqueous Environments (“MATISSE”) (Applicants Bosserhoff, Anja-Katrin ; Choubey, Bhaskar ; Haring Bolívar, Peter )
- MLL-based Integrated THz Frequency Synthesizers (MINTS) (Applicants Schell, Martin ; Scheytt, Christoph )
- Regenerative, Beyond-fmax, 3D-printed Terahertz Camera Transceiver (TeraCaT) (Applicants Ellinger, Frank ; Vossiek, Martin )
- Terahertz Digital Chess-Board-Modulated Spread-Spectrum System for Radar and Communication Comprising 200 GHz Bandwidth (Applicants Ellinger, Frank ; Issakov, Vadim ; Weigel, Robert )
- THz EPR-on-a-Chip for Enhanced Spin Sensitivity (Applicants Anders, Jens ; Lips, Klaus )
Spokesperson
Professor Dr. Ullrich Pfeiffer