Add to ORKGModulation doped heterostructures have revolutionized the operation of field effect devices by increasing the speed of operation. One of the factors that affects the speed of operation of these devices is the mobility of the carriers, which is intrinsic to the material used. Mobility of electrons in silicon based devices has improved drastically over the years, reaching as high as 50.000cm2/Vs at 4.2K and 2600cm2/Vs at room temperature. However, the mobility of holes in p-type silicon devices still remains comparatively lesser than the electron mobility because of large effective masses and complicated valence band structure involved. Germanium is known to have the largest hole mobility of all the known semiconductors and is considered most...
We report an extremely high 2DHG mobility of 4500 cm2V-1s-1 and 777000 cm2V-1s-1 at 293 and 0.333 K,...
The high room-temperature carrier mobilities which have recently been observed for both electrons an...
In this paper we study the mobility limiting mechanisms in modulation doped Si/SiGe (2DEG) and Ge/Si...
In this paper we report studies carried out on 2D electrons in strained silicon and 2D holes in stra...
The work presented here describes the electrical characterization of n- and p-type strained silicon-...
In this paper we report experimental studies carried out on two-dimensional electrons in strained si...
sub 4 Ge sub 0 sub . sub 6 linearly graded VS and corresponds to 14855cm sup 2 centre dot V sup - su...
Modulation-doped two-dimensional hole gas structures consisting of a strained germanium channel on r...
We report a theoretical study of the hole density and the low-field mobility in modulation p-doped r...
This thesis is a report of experimental investigations of hole transport properties in quantum wells...
Carrier mobility is one of the most important parameters of any semiconductor material, determining ...
Recently there has been a lot of interest in two dimensional hole gas systems in pure germanium chan...
Thin SiGe-on-insulator (SGOI) substrates with Ge content varying between 42 and 93% were produced by...
Modulation-doped two-dimensional hole gas structures consisting of a strained germanium channel on r...
The performance of strained silicon (Si) as the channel material for today’s metal-oxide-semiconduct...
We report an extremely high 2DHG mobility of 4500 cm2V-1s-1 and 777000 cm2V-1s-1 at 293 and 0.333 K,...
The high room-temperature carrier mobilities which have recently been observed for both electrons an...
In this paper we study the mobility limiting mechanisms in modulation doped Si/SiGe (2DEG) and Ge/Si...
In this paper we report studies carried out on 2D electrons in strained silicon and 2D holes in stra...
The work presented here describes the electrical characterization of n- and p-type strained silicon-...
In this paper we report experimental studies carried out on two-dimensional electrons in strained si...
sub 4 Ge sub 0 sub . sub 6 linearly graded VS and corresponds to 14855cm sup 2 centre dot V sup - su...
Modulation-doped two-dimensional hole gas structures consisting of a strained germanium channel on r...
We report a theoretical study of the hole density and the low-field mobility in modulation p-doped r...
This thesis is a report of experimental investigations of hole transport properties in quantum wells...
Carrier mobility is one of the most important parameters of any semiconductor material, determining ...
Recently there has been a lot of interest in two dimensional hole gas systems in pure germanium chan...
Thin SiGe-on-insulator (SGOI) substrates with Ge content varying between 42 and 93% were produced by...
Modulation-doped two-dimensional hole gas structures consisting of a strained germanium channel on r...
The performance of strained silicon (Si) as the channel material for today’s metal-oxide-semiconduct...
We report an extremely high 2DHG mobility of 4500 cm2V-1s-1 and 777000 cm2V-1s-1 at 293 and 0.333 K,...
The high room-temperature carrier mobilities which have recently been observed for both electrons an...
In this paper we study the mobility limiting mechanisms in modulation doped Si/SiGe (2DEG) and Ge/Si...