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    • 1. 发明授权
    • Semiconductor devices having compensated buffer layers
    • 具有补偿缓冲层的半导体器件
    • US4745448A
    • 1988-05-17
    • US813306
    • 1985-12-24
    • H. Barteld Van ReesBarry J. Liles
    • H. Barteld Van ReesBarry J. Liles
    • H01L29/10H01L29/207H01L29/80H01L29/167H01L29/227
    • H01L29/1075H01L29/207
    • A field effect transistor includes a substrate of gallium arsenide having a resistivity of at least about 10.sup.7 ohm/cm and a first buffer layer of gallium arsenide disposed over the substrate having a deep level acceptor dopant incorporated into the buffer layer to compensate for donor dopants incorporated into the buffer layer. The concentration of the donor dopants and the acceptor dopant are controlled to provide the buffer layer with a predetermined resistivity characteristic of about 10.sup.7 -10.sup.8 ohm/cm. The concentration of the deep acceptor dopant is substantially constant at about 10.sup.16 acceptors/cc throughout the first buffer layer. The buffer layer preferably has a thickness of at least 2 microns and preferably between 5 and 30 microns. A second buffer layer is disposed over the first buffer layer having a monotonically declining concentration of chromium dopant from about 10.sup.16 to less than about 10.sup.14 acceptors/cc. An active layer and contact layer of suitably n-type doped gallium arsenide are consecutively disposed over at least portions of the second buffer layer.
    • 场效应晶体管包括具有至少约107欧姆/厘米电阻率的砷化镓衬底和布置在衬底上的第一缓冲层砷化镓,其具有并入缓冲层中的深层受主掺杂剂,以补偿掺入的施主掺杂剂 进入缓冲层。 控制施主掺杂剂和受主掺杂剂的浓度,以使缓冲层具有约107-108欧姆/厘米3的预定电阻率特性。 深受体掺杂剂的浓度基本上恒定在整个第一缓冲层中约1016个受体/ cc。 缓冲层优选具有至少2微米,优选5至30微米的厚度。 第二缓冲层设置在第一缓冲层上,其具有从约1016到小于约1014个受体/ cc的单调下降的铬掺杂剂浓度。 适当地n型掺杂砷化镓的有源层和接触层连续设置在第二缓冲层的至少部分上。
    • 3. 发明授权
    • Semiconductor structure and method of manufacture
    • 半导体结构及制造方法
    • US4688062A
    • 1987-08-18
    • US833677
    • 1986-02-25
    • Barry J. Liles
    • Barry J. Liles
    • H01L29/10H01L29/207H01L29/812H01L29/80H01L27/02H01L29/12H01L29/36
    • H01L29/207H01L29/1075H01L29/812
    • A field effect transistor includes a semi-insulating substrate having a doped compensated buffer layer. Such compensated buffer layer is doped with a species which provides deep level acceptors to compensate for background donor doping of the buffer layer and to thus provide the semi-insulating buffer layer. The compensated buffer layer is used to isolate subsequent layers from crystal defects in the substrate. A thin shielding layer having a dopant concentration of 10.sup.14 -3.times.10.sup.15 atoms/cm.sup.3 and a dopant conductivity opposite to that of the dopant used to compensate the buffer layer is disposed over the buffer layer. An active layer is then disposed over the shielding layer and areas in the active layer are provided for source, drain, and gate electrodes. By providing the doped shielding layer, a small amount of conduction is provided in the shielding layer which prevents the build-up of charge in the buffer layer caused by ionization of the deep-level acceptor. The shielding layer also prevents the out-diffusion of the dopant species of the buffer layer into the active layer of the device.
    • 场效应晶体管包括具有掺杂补偿缓冲层的半绝缘衬底。 这种补偿缓冲层掺杂有提供深电平受体以补偿缓冲层的背景施主掺杂并由此提供半绝缘缓冲层的物质。 补偿缓冲层用于将后续层与衬底中的晶体缺陷隔离。 具有掺杂剂浓度为1014-3×1015原子/ cm3的薄屏蔽层和与用于补偿缓冲层的掺杂剂相反的掺杂剂导电性设置在缓冲层上。 然后将有源层设置在屏蔽层上方,并且为源极,漏极和栅电极提供有源层中的区域。 通过提供掺杂的屏蔽层,在屏蔽层中提供少量的导电,防止由深层受体的电离引起的缓冲层中的电荷的积聚。 屏蔽层还防止缓冲层的掺杂物种类向装置的有源层的扩散。