Strained SiGe Channels for Band-Edge PMOS Threshold Voltages With Metal Gates and High- $k$ Dielectrics

“…cSiGe has been proposed as a pFET channel material [1][2][3][4] to reduce the threshold voltage (V TH ). The V TH reduction is achieved by narrowing of the channel band-gap, on the valence band side, with addition of Ge to Silicon(Si).…”

“…IBM SRDC, 1 Toshiba America Electronic Components Inc., 2 GLOBALFOUNDRIES, 3 Samsung Electronics, 4 Infineon Technologies, 5 Abstract:…”

A manufacturable dual channel (Si and SiGe) high-k metal gate CMOS technology with multiple oxides for high performance and low power applications

“…cSiGe has been proposed as a pFET channel material [1][2][3][4] to reduce the threshold voltage (V TH ). The V TH reduction is achieved by narrowing of the channel band-gap, on the valence band side, with addition of Ge to Silicon(Si).…”

“…IBM SRDC, 1 Toshiba America Electronic Components Inc., 2 GLOBALFOUNDRIES, 3 Samsung Electronics, 4 Infineon Technologies, 5 Abstract:…”

A manufacturable dual channel (Si and SiGe) high-k metal gate CMOS technology with multiple oxides for high performance and low power applications

“…The mobility can be degraded when the negative piezoresistance coefficient of the transverse [1 1 0] p-channel is beyond a critical W/L ratio. Nevertheless, the critical W/L ratio may require further verification because of other factors reported in literature, such as the capsulated Si (capsulated silicon) thickness [8] and the Ge-content Si 1Àx Ge x [2,9], which can be sensitive to the device performance. In addition, a high Ge content and a thick Si 1Àx Ge x have been reported with a decreased threshold voltage (V T ) [9].…”

“…Nevertheless, the critical W/L ratio may require further verification because of other factors reported in literature, such as the capsulated Si (capsulated silicon) thickness [8] and the Ge-content Si 1Àx Ge x [2,9], which can be sensitive to the device performance. In addition, a high Ge content and a thick Si 1Àx Ge x have been reported with a decreased threshold voltage (V T ) [9]. Thus, we may infer that V T shifting is correlated to the current drive (or transconductance) of a strained SiGe channel, and these V T shifting and performance enhancement or degradation can both be dimensionally dependent compared with those of a control Si channel.…”

Threshold voltage and transconductance shifting reliance on strained-SiGe channel dimension

“…A S THE need of the deep nanonode technology in IC manufacturing, using high-k [1]- [3] and metal gate (HK/MG) [4], [5] technologies as well as the gate-last (GL) process is a deliberate choice to increase the drive current of pMOSFET and avoid the higher source/drain annealing temperature in process integration, causing the HK crystallization and possibly increasing the risk of higher gate leakage. The advantages are not only to freely adjust the threshold voltage (V T ), but to reduce the power consumption or delay time because of the lower gate resistance in the circuit concern.…”

Gate Leakage Characteristics for 28 nm HfZrO_{<italic>x</italic>} pMOSFETs After DPN Process Treatment With Different Nitrogen Concentration