搜搜做题作业网英语翻译By combining the optical coupling improvements discussed
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英语翻译
By combining the optical coupling improvements discussed
in Se:.XVI,a large increase in the array imaging
performance can be expected.For example,Eq.(69)
showed that proper use of microlenses could reduce the
dark current by a factor of 40.Assuming a more conservative
reduction of 20 would allow the operating temperature
to increase from T = 65 to 75 K.In addition,replacing
the linear gratings with a random reflector on a thinned
substrate would improve the optical coupling by a factor of
- 10,and further increase the operating temperature to
T=84 K while maintaining the NEAT at 10 mK.A schematic
illustration of such an optimized QWIP array is
shown in Fig.169.It could be fabricated by (i) first etching
the GaAs random scattering reflector and the deep
(i.e.,into the substrate) mesa grooves between pixels; (ii)
bump bonding the QWIP array to a Si multiplexer; (iii)
filling the air gap with epoxy (or other sealant); (iv) thinning
and removing the GaAs substrate which will completely
separate individual pixels since the mesa grooves
were initially etched into the substrate (note that such
thinning to -6 pm is required and thus is routinely done
for InSb arrays); (v) the top QWIP ohmic contact can
now be metalized; and (vi) the microlens array can now be
attached (either epoxy or air gap).An important advantage
of this isolated pixel approach is that virtually all the
light is trapped inside the individual QWIPs (as indicated
in Fig.150) simultaneously increasing the quantum efficiency
and reducing the crosstalk to negligible values.A
highly advantageouas dditional benefit is that the thermalexpansion
mismatch problem between the Si substrate and
the GaAs QWIP is completely eliminated and thus arbitrarily
large two-dimensional arrays can be fabricated.In
the future,the possibility for monolithic integration with
GaAs electronics provides another approach to eliminate
thermal mismatch problems
不要用软件直接翻译的
By combining the optical coupling improvements discussed
in Se:.XVI,a large increase in the array imaging
performance can be expected.For example,Eq.(69)
showed that proper use of microlenses could reduce the
dark current by a factor of 40.Assuming a more conservative
reduction of 20 would allow the operating temperature
to increase from T = 65 to 75 K.In addition,replacing
the linear gratings with a random reflector on a thinned
substrate would improve the optical coupling by a factor of
- 10,and further increase the operating temperature to
T=84 K while maintaining the NEAT at 10 mK.A schematic
illustration of such an optimized QWIP array is
shown in Fig.169.It could be fabricated by (i) first etching
the GaAs random scattering reflector and the deep
(i.e.,into the substrate) mesa grooves between pixels; (ii)
bump bonding the QWIP array to a Si multiplexer; (iii)
filling the air gap with epoxy (or other sealant); (iv) thinning
and removing the GaAs substrate which will completely
separate individual pixels since the mesa grooves
were initially etched into the substrate (note that such
thinning to -6 pm is required and thus is routinely done
for InSb arrays); (v) the top QWIP ohmic contact can
now be metalized; and (vi) the microlens array can now be
attached (either epoxy or air gap).An important advantage
of this isolated pixel approach is that virtually all the
light is trapped inside the individual QWIPs (as indicated
in Fig.150) simultaneously increasing the quantum efficiency
and reducing the crosstalk to negligible values.A
highly advantageouas dditional benefit is that the thermalexpansion
mismatch problem between the Si substrate and
the GaAs QWIP is completely eliminated and thus arbitrarily
large two-dimensional arrays can be fabricated.In
the future,the possibility for monolithic integration with
GaAs electronics provides another approach to eliminate
thermal mismatch problems
不要用软件直接翻译的
答案就是
光纤耦合改善相结合的方法进行了探讨
硒:中.十六、大幅度上升的数组的影像
可预期的表现.例如,情商.(69%).
表明,适当使用透镜可以减少
暗电流的40%.假设一个更保守
减少20将允许操作温度
增加从T = 65岁至75 .此外,取代
线性光栅反射镜上与一个随机变薄
可以提高光学基片耦合的一个因素
胜10负,进而提高操作温度
T = 84凯西同时保持整洁,10个可.一个图解
说明这一优化QWIP阵列
如图169.它可能由(我)第腐蚀
材料的反射和深邃的随机的分散
(即成基质)台面槽像素;(二)之间,
QWIP键数组的肿块斯信号;(3).
填隙(或其他与环氧树脂胶);(4)变薄
材料和基质,完全忘记了
独立的像素的台面槽.以来
最初被刻在基质(注意,是这样吗
对- 6点要求细化,因此经常做的
对器件数组);(五)前QWIP欧姆接触
现在是用金属化;(六)量级阵列现在可以
附件(环氧或气隙).一个重要的优势
这个荒芜的像素的方法是,几乎所有的
光线被困在个人QWIPs所示
在图),同时增加了150量子效率
相声可以忽略不计,减少对价值观.一个
dditional高度advantageouas是thermalexpansion受益
不匹配问题和硅衬底
这个材料是完全消除,从而QWIP坐标
大的二维数组可以编造.在
未来的可能性,为整体集成
提供了另一种电子材料来消除
热不匹配的问题
光纤耦合改善相结合的方法进行了探讨
硒:中.十六、大幅度上升的数组的影像
可预期的表现.例如,情商.(69%).
表明,适当使用透镜可以减少
暗电流的40%.假设一个更保守
减少20将允许操作温度
增加从T = 65岁至75 .此外,取代
线性光栅反射镜上与一个随机变薄
可以提高光学基片耦合的一个因素
胜10负,进而提高操作温度
T = 84凯西同时保持整洁,10个可.一个图解
说明这一优化QWIP阵列
如图169.它可能由(我)第腐蚀
材料的反射和深邃的随机的分散
(即成基质)台面槽像素;(二)之间,
QWIP键数组的肿块斯信号;(3).
填隙(或其他与环氧树脂胶);(4)变薄
材料和基质,完全忘记了
独立的像素的台面槽.以来
最初被刻在基质(注意,是这样吗
对- 6点要求细化,因此经常做的
对器件数组);(五)前QWIP欧姆接触
现在是用金属化;(六)量级阵列现在可以
附件(环氧或气隙).一个重要的优势
这个荒芜的像素的方法是,几乎所有的
光线被困在个人QWIPs所示
在图),同时增加了150量子效率
相声可以忽略不计,减少对价值观.一个
dditional高度advantageouas是thermalexpansion受益
不匹配问题和硅衬底
这个材料是完全消除,从而QWIP坐标
大的二维数组可以编造.在
未来的可能性,为整体集成
提供了另一种电子材料来消除
热不匹配的问题
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