Optimum Si thickness for backside detection of photon emission using Si-CCD

Abstract Nowadays, InGaAs detectors are preferable choice for backside photon emission (PE) applications. However, new, intensified Si CCD detectors with their ultra-low noise performance, when additionally combined with proper backside sample preparation, namely substrate thinning, may become a competition to the InGaAs based solution. In this study we present the PE experiments performed with low noise Si CCD detectors. We show the measurement results of the integral light intensity (power) as a function of the remaining Si thickness. We also demonstrate the continuous spectrum acquisition results obtained through the thinned backside of the chip. Finally we also discuss the issue of the optimal Si substrate thickness taking into account PE power detectability, imaging resolution and heat removal efficiency.

[1]  C. Boit,et al.  Functional IC analysis through chip backside with nano scale resolution - E-beam probing in FIB trenches to STI level , 2007, 2007 14th International Symposium on the Physical and Failure Analysis of Integrated Circuits.

[2]  L. Balk,et al.  A review of near infrared photon emission microscopy and spectroscopy , 2005, Proceedings of the 12th International Symposium on the Physical and Failure Analysis of Integrated Circuits, 2005. IPFA 2005..

[3]  Christian Boit,et al.  Performance improvement of Si-CCD detector based backside reflected light and photon emission microscopy by FIB ultimate substrate thinning , 2011, Microelectron. Reliab..