TY - GEN
T1 - Defects in Low-κ dielectrics and etch stop layers for use as interlay er dielectrics in ULSI
AU - Bittel, B. C.
AU - Pomorski, T. A.
AU - Lenahan, P. M.
AU - King, S.
PY - 2010
Y1 - 2010
N2 - The electronic properties of thin film loW-κ interlayer dielectric (ILD) and etch stop layers (ESL) are important issues in present day ULSI development.1-6 LOW-κ ILD and ESLs with dielectric constants significantly less then those of SiO2 and SiN are utilized to reduce capacitance induced RC delays in ULSI circuits. However as the semiconductor industry looks to transition to 16 nm and beyond technology nodes, numerous reliability concerns with low-k materials need to be addressed. In particular, leakage currents, time dependent dielectric breakdown (TDDM) and stress induced leakage currents (SILC) are critical problems that are not yet well understood in ILD. A topic of current interest is ultraviolet light (UV curing) of low-k materials.5,6 We have made electron spin resonance (ESR) and current density versus voltage measurements on a moderately extensive set of dielectric/silicon structures involving materials of importance to low-k interconnect systems. Most of the dielectrics studied involve various compositions of SiOC :H. In addition we have also made measurements on other dielectrics including SiO2, SiCN:H and SiN:H.
AB - The electronic properties of thin film loW-κ interlayer dielectric (ILD) and etch stop layers (ESL) are important issues in present day ULSI development.1-6 LOW-κ ILD and ESLs with dielectric constants significantly less then those of SiO2 and SiN are utilized to reduce capacitance induced RC delays in ULSI circuits. However as the semiconductor industry looks to transition to 16 nm and beyond technology nodes, numerous reliability concerns with low-k materials need to be addressed. In particular, leakage currents, time dependent dielectric breakdown (TDDM) and stress induced leakage currents (SILC) are critical problems that are not yet well understood in ILD. A topic of current interest is ultraviolet light (UV curing) of low-k materials.5,6 We have made electron spin resonance (ESR) and current density versus voltage measurements on a moderately extensive set of dielectric/silicon structures involving materials of importance to low-k interconnect systems. Most of the dielectrics studied involve various compositions of SiOC :H. In addition we have also made measurements on other dielectrics including SiO2, SiCN:H and SiN:H.
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U2 - 10.1109/IIRW.2010.5706482
DO - 10.1109/IIRW.2010.5706482
M3 - Conference contribution
AN - SCOPUS:79952403575
SN - 9781424485246
T3 - IEEE International Integrated Reliability Workshop Final Report
SP - 37
EP - 41
BT - 2010 IEEE International Integrated Reliability Workshop Final Report, IIRW 2010
T2 - 2010 IEEE International Integrated Reliability Workshop, IIRW 2010
Y2 - 17 October 2010 through 21 October 2010
ER -