Add to ORKGABSTRACT: A new module concept for future ATLAS pixel detector upgrades is presented, where thin n-in-p silicon sensors are connected to the front-end chip exploiting the novel Solid Liquid Interdiffusion technique (SLID) and the signals are read out via Inter Chip Vias (ICV) etched through the front-end. This should serve as a proof of principle for future four-side buttable pixel assemblies for the ATLAS upgrades, without the cantilever presently needed in the chip for the wire bonding. The SLID interconnection, developed by the Fraunhofer EMFT, is a possible alternative to the standard bump-bonding. It is characterized by a very thin eutectic Cu-Sn alloy and allows for stacking of different layers of chips on top of the first one, withou...
The R&D activity presented is focused on the development of new modules for the upgrade of the A...
We present an R&D activity aiming towards a new detector concept in the framework of the ATLAS pixel...
A new pixel module concept is presented utilizing thin sensors and a novel vertical integration tech...
A new module concept for future ATLAS pixel detector upgrades is presented, where thin n-in-p silico...
A new module concept for future ATLAS pixel detector upgrades is presented, where thin n-in-p silico...
The presented R&D activity is focused on the development of a new pixel module concept for the fores...
The presented R&D activity is focused on the development of a new pixel module concept for the fores...
The performance of pixel modules built from 75 micrometer thin silicon sensors and ATLAS read-out ch...
The performance of pixel modules built from 75 micrometer thin silicon sensors and ATLAS read-out ch...
The performance of pixel modules built from 75 μm thin silicon sensors and ATLAS read-out chips empl...
We present the results of the characterization of pixel modules composed of 75 μm thick n-in-p senso...
The R&D activity presented is focused on the development of new modules for the upgrade of the ATLAS...
A new pixel module concept is presented, where thin sensors and a novel vertical integration techniq...
The presented R&D activity is focused on the development of a new detector for the upgrade of the AT...
The performance of pixel modules built from 75 micrometer thin silicon sensors and ATLAS read-out ch...
The R&D activity presented is focused on the development of new modules for the upgrade of the A...
We present an R&D activity aiming towards a new detector concept in the framework of the ATLAS pixel...
A new pixel module concept is presented utilizing thin sensors and a novel vertical integration tech...
A new module concept for future ATLAS pixel detector upgrades is presented, where thin n-in-p silico...
A new module concept for future ATLAS pixel detector upgrades is presented, where thin n-in-p silico...
The presented R&D activity is focused on the development of a new pixel module concept for the fores...
The presented R&D activity is focused on the development of a new pixel module concept for the fores...
The performance of pixel modules built from 75 micrometer thin silicon sensors and ATLAS read-out ch...
The performance of pixel modules built from 75 micrometer thin silicon sensors and ATLAS read-out ch...
The performance of pixel modules built from 75 μm thin silicon sensors and ATLAS read-out chips empl...
We present the results of the characterization of pixel modules composed of 75 μm thick n-in-p senso...
The R&D activity presented is focused on the development of new modules for the upgrade of the ATLAS...
A new pixel module concept is presented, where thin sensors and a novel vertical integration techniq...
The presented R&D activity is focused on the development of a new detector for the upgrade of the AT...
The performance of pixel modules built from 75 micrometer thin silicon sensors and ATLAS read-out ch...
The R&D activity presented is focused on the development of new modules for the upgrade of the A...
We present an R&D activity aiming towards a new detector concept in the framework of the ATLAS pixel...
A new pixel module concept is presented utilizing thin sensors and a novel vertical integration tech...