Search Results - "Aarts, A.A."

Implantation of Neuropixels probes for chronic recording of neuronal activity in freely behaving mice and rats by van Daal, Rik J. J., Aydin, Çağatay, Michon, Frédéric, Aarts, Arno A. A., Kraft, Michael, Kloosterman, Fabian, Haesler, Sebastian

“…How dynamic activity in neural circuits gives rise to behavior is a major area of interest in neuroscience. A key experimental approach for addressing this…”
Get full text

Recent GridPix results: An integrated Micromegas grid and an ageing test of a Micromegas chamber by van der Graaf, H., Aarts, A.A., Chefdeville, M., van der Putten, S.

“…We have constructed a new gas-filled detector in which we combine a Micromegas with a CMOS pixel chip. In a next step, a procedure to construct a…”
Get full text

Large-scale recording of thalamocortical circuits: in vivo electrophysiology with the two-dimensional electronic depth control silicon probe by Fiáth, Richárd, Beregszászi, Patrícia, Horváth, Domonkos, Wittner, Lucia, Aarts, Arno A A, Ruther, Patrick, Neves, Hercules P, Bokor, Hajnalka, Acsády, László, Ulbert, István

“…Recording simultaneous activity of a large number of neurons in distributed neuronal networks is crucial to understand higher order brain functions. We…”
Get full text

In vivo Recording Quality of Mechanically Decoupled Floating Versus Skull-Fixed Silicon-Based Neural Probes by Chauvière, Laetitia, Pothof, Frederick, Gansel, Kai S, Klon-Lipok, Johanna, Aarts, Arno A A, Holzhammer, Tobias, Paul, Oliver, Singer, Wolf J, Ruther, Patrick

“…Throughout the past decade, silicon-based neural probes have become a driving force in neural engineering. Such probes comprise sophisticated, integrated CMOS…”
Get full text

Two-Dimensional Multi-Channel Neural Probes With Electronic Depth Control by Torfs, T., Aarts, A. A. A., Erismis, M. A., Aslam, J., Yazicioglu, R. F., Seidl, K., Herwik, S., Ulbert, I., Dombovari, B., Fiath, R., Kerekes, B. P., Puers, R., Paul, O., Ruther, P., Van Hoof, C., Neves, H. P.

“…This paper presents multi-electrode arrays for in vivo neural recording applications incorporating the principle of electronic depth control (EDC), i.e., the…”
Get full text

Approaches for drug delivery with intracortical probes by Spieth, Sven, Schumacher, Axel, Trenkle, Fabian, Brett, Olivia, Seidl, Karsten, Herwik, Stanislav, Kisban, Sebastian, Ruther, Patrick, Paul, Oliver, Aarts, Arno A A, Neves, Hercules P, Rich, P Dylan, Theobald, David E, Holtzman, Tahl, Dalley, Jeffrey W, Verhoef, Bram-Ernst, Janssen, Peter, Zengerle, Roland

“…Intracortical microprobes allow the precise monitoring of electrical and chemical signaling and are widely used in neuroscience. Microelectromechanical system…”
Get more information

New results on a gaseous detector using Medipix2 and Micromegas by Aarts, A.A.A., van der Graaf, H., van der Putten, S.

“…A prototype time projection chamber (TPC) has been built (GridPix) consisting of a Medipix2 pixel CMOS readout circuit as a direct anode and a Micromegas grid…”
Get full text

Comparison of the in-vivo neural recording quality of floating and skull-fixed silicon probes by Pothof, F., Chauviere, L., Holzhammer, T., Aarts, A. A. A., Paul, O., Singer, W., Ruther, P.

“…Silicon neural probes with sophisticated integrated CMOS-based electronics providing a large number of recording sites integrated along the slender probe…”
Get full text

Discharge Protection and Ageing of Micromegas Pixel Detectors by Aarts, A.A., Blanco Carballo, V.M., Chefdeville, M., Colas, P., Dunand, S., Fransen, M., van der Graaf, H., Giomataris, Y., Hartjes, F., Koffeman, E., Melai, J., Peek, H., Riegler, W., Salm, C., Schmitz, J., Smits, S.M., Timmermans, J., Visschers, J.L., Wyrsch, N.

“…GridPix is a gas-filled detector in which a Micromegas is combined with a CMOS pixel chip. The GridPix detector, originally developed for the readout of TPCs,…”
Get full text

A 3D slim-base probe array for in vivo recorded neuron activity by Aarts, A. A. A., Neves, H. P., Ulbert, I., Wittner, L., Grand, L., Fontes, M. B. A., Herwik, S., Kisban, S., Paul, O., Ruther, P., Puers, R. P., Van Hoof, C.

“…This paper introduces the first experimental results of a new implantable slim-base three-dimensional (3D) probe array for cerebral applications. The probes…”
Get full text

Recent advances in interconnect technology for slim-base biomedical probe arrays by Aarts, A.A.A., Neves, H.P., Puers, R., Van Hoof, C.

“…An interconnect technology for out-of-plane biomedical probe arrays has been demonstrated. The shafts of the probe array are assembled perpendicular to a…”
Get full text

Interconnect for Out-of-Plane Mems Assembly by Aarts, A.A.A., Neves, H. P., Puers, R. P., van Hoof, C.

“…An out-of-plane interconnect system has been demonstrated. With this type of interconnect approach, different silicon micromachined dies can be electrically…”
Get full text

Design and Integration Technology for Miniature Medical Microsystems by Van Hoof, C., Neves, H., Aarts, A.A.A., Iker, F., Soussan, P., Gonzalez, M., Beyne, E., Vanfleteren, J., Puers, R.P., De Moor, P.

“…The electronic subsystem of wearable and implantable devices is constructed using board-level and package-level integration technology and this limits the…”
Get full text

Building the human-chip interface by Aarts, A.A.A., Bariatto, M., Fontes, A., Neves, H.P., Kisban, S., Ruther, P., Penders, J., Bartic, C., Verstreken, K., Van Hoof, C.

“…This paper summarizes several interconnection issues related to brain-computer interfaces and neuroprosthetics. Silicon-based out-of-plane integration and…”
Get full text