Assis, P.Bernardino, A.Blanco, A.Luz, R.Mendes, L.Michel, J.Neiser, A.Pereira, A.Pimenta, M.Shellard, R.Traxler, M.Clemêncio, FilomenaCarolino, N.Cunha, O.Ferreira, M.Fonte, P.Lopes, L.Loureiro, C.2022-03-232022-03-232016-10Assis, P., Bernardino, A., Blanco, A., Luz, R., Mendes, L., Michel, J., Neiser, A., Pereira, A. M., Pimenta, M., Shellard, R., Traxler, M., Clemêncio, F., Carolino, N., Cunha, O., Ferreira, M. G. S., Fonte, P., Lopes, L., & Loureiro, C. (2016). A large area TOF-tracker device based on multi-gap Resistive Plate Chambers. Journal of Instrumentation, 1-9. https://doi.org/doi:10.1088/1748-0221/11/10/C10002http://hdl.handle.net/10400.22/20299The TOF-tracker concept, the simultaneous measurement of accurate time and bi-dimensional space coordinates in a single gaseous detector, has been previously demonstrated. The detector yielded a time resolution of 77 ps σ along with a bi-dimensional position resolution of 38 μm σ over a full active area of 60 × 60 mm2. In here, we report about a large area, 1550 × 1250 mm2, TOF-tracker device, tested by tracking cosmic muons, yielding a position resolution down to 1.33 mm σ, a simultaneous time resolution of 150 ps σ and 92% detection efficiency, over the entire area of the detector. The sub-millimetre electronic resolution of the readout chain suggests that the position resolution here reported could be dominated by non-corrected systematic effects and therefore it could be yet significantly improved.engInstrumentation and methods for time-of-flight (TOF) spectroscopyParticle detectorsParticle tracking detectors (Gaseous detectors)Resistive-plate chambersjournal article10.1088/1748-0221/11/10/C100021748-0221