会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明授权
    • Method for forming a high resolution resist pattern on a semiconductor wafer
    • 在半导体晶片上形成高分辨率抗蚀剂图案的方法
    • US08586269B2
    • 2013-11-19
    • US11726433
    • 2007-03-22
    • Uzodinma OkoroanyanwuHarry J. LevinsonRyoung-Han KimThomas Wallow
    • Uzodinma OkoroanyanwuHarry J. LevinsonRyoung-Han KimThomas Wallow
    • G11B11/105
    • G03F7/38
    • In one disclosed embodiment, a method for forming a high resolution resist pattern on a semiconductor wafer involves forming a layer of resist comprising, for example a polymer matrix and a catalytic species, over a material layer formed over a semiconductor wafer; exposing the layer of resist to patterned radiation; and applying a magnetic field to the semiconductor wafer during a post exposure bake process. In one embodiment, the patterned radiation is provided by an extreme ultraviolet (EUV) light source. In other embodiments, the source of patterned radiation can be an electron beam, or ion beam, for example. In one embodiment, the polymer matrix is an organic polymer matrix such as, for example, styrene, acrylate, or methacrylate. In one embodiment, the catalytic species can be, for example, an acid, a base, or an oxidizing agent.
    • 在一个公开的实施例中,在半导体晶片上形成高分辨率抗蚀剂图案的方法包括在半导体晶片上形成的材料层上形成包含例如聚合物基质和催化物质的抗蚀剂层; 将抗蚀剂层暴露于图案化辐射; 以及在后曝光烘烤处理期间向半导体晶片施加磁场。 在一个实施例中,图案化的辐射由极紫外(EUV)光源提供。 在其它实施例中,图案化辐射源可以是例如电子束或离子束。 在一个实施方案中,聚合物基质是有机聚合物基质,例如苯乙烯,丙烯酸酯或甲基丙烯酸酯。 在一个实施方案中,催化物质可以是例如酸,碱或氧化剂。
    • 5. 发明申请
    • MULTIPLE EXPOSURE TECHNIQUE USING OPC TO CORRECT DISTORTION
    • 使用OPC纠正错误的多次曝光技术
    • US20090040483A1
    • 2009-02-12
    • US11834979
    • 2007-08-07
    • Yunfei DengJongwook KyeRyoung-han Kim
    • Yunfei DengJongwook KyeRyoung-han Kim
    • G03B27/42G03B27/68
    • G03B27/42
    • Accurate ultrafine patterns are formed using a multiple exposure technique comprising implementing an OPC procedure to form an exposure reticle to compensate for distortion of an overlying resist pattern caused by an underlying resist pattern. Embodiments include forming a first resist pattern in a first resist layer over a target layer using a first exposure reticle, forming a second exposure reticle by an OPC technique to compensate for distortion of a second resist pattern caused by the underlying first resist pattern, depositing a second resist layer on the first resist pattern, forming the second resist pattern in the second resist layer using the second exposure reticle, the first and second resist patterns constituting a final resist mask, and forming a pattern in the target layer using the final resist mask.
    • 使用多重曝光技术形成精确的超细纹图案,该技术包括实施OPC程序以形成曝光掩模版,以补偿由下面的抗蚀剂图案引起的上覆抗蚀剂图案的变形。 实施例包括使用第一曝光掩模在目标层上在第一抗蚀剂层中形成第一抗蚀剂图案,通过OPC技术形成第二曝光掩模版,以补偿由下面的第一抗蚀剂图案引起的第二抗蚀剂图案的变形, 在第一抗蚀剂图案上的第二抗蚀剂层,使用第二曝光掩模在第二抗蚀剂层中形成第二抗蚀剂图案,第一和第二抗蚀剂图案构成最终抗蚀剂掩模,并且使用最终抗蚀剂掩模在目标层中形成图案 。
    • 8. 发明申请
    • SPACER DOUBLE PATTERNING THAT PRINTS MULTIPLE CD IN FRONT-END-OF-LINE
    • 在前端打印多张CD的间隔双重图案
    • US20120043646A1
    • 2012-02-23
    • US12860327
    • 2010-08-20
    • Ryoung-han Kim
    • Ryoung-han Kim
    • H01L21/306H01L29/02
    • H01L21/32139H01L21/0337H01L21/0338H01L21/3086H01L21/3088
    • A semiconductor device is formed with sub-resolution features and at least one additional feature having a relatively larger critical dimension using only two masks. An embodiment includes forming a plurality of first mandrels, having a first width, and at least one second mandrel, having a second width greater than the first width, overlying a target layer using a first mask, forming sidewall spacers along the length and width of the first and second mandrels, forming a filler adjacent each sidewall spacer, the filler having the first width, removing the filler adjacent sidewall spacers along the widths of the first and second mandrels using a second mask, removing the sidewall spacers, and etching the target layer between the filler and the first and second mandrels, thereby forming at least two target features with different critical dimensions. Embodiments further include using a third mask to form a semiconductor device having further features with a different critical dimension, but the same pitch, as the sub-resolution features.
    • 半导体器件形成有子分辨率特征,并且至少一个附加特征具有仅使用两个掩模的相对较大的临界尺寸。 一个实施例包括形成具有第一宽度的多个第一心轴和具有大于第一宽度的第二宽度的至少一个第二心轴,使用第一掩模覆盖目标层,沿着第一宽度的长度和宽度形成侧壁间隔物 所述第一和第二心轴在每个侧壁间隔物附近形成填料,所述填料具有第一宽度,使用第二掩模,沿着所述第一和第二心轴的宽度除去所述填料相邻的侧壁间隔物,去除所述侧壁间隔物,并蚀刻所述靶 填充物与第一和第二心轴之间的层,从而形成具有不同临界尺寸的至少两个目标特征。 实施例还包括使用第三掩模来形成半导体器件,该半导体器件具有与子分辨特征具有不同临界尺寸但具有相同间距的另外特征。
    • 9. 发明授权
    • In-die focus monitoring with binary mask
    • 二进制掩码的管芯内聚焦监控
    • US08009274B2
    • 2011-08-30
    • US12167808
    • 2008-07-03
    • Ryoung-han Kim
    • Ryoung-han Kim
    • G03B27/52G03B27/68
    • G03B27/52G03F7/70641
    • Focus monitoring for a photolithographic applications is provided by illuminating a photoresist layer with a light beam transmitted through a first binary mask to define a circuit pattern on an underlying substrate and then illuminating the photoresist layer with an unbalanced off-axis light beam transmitted through a second binary mask. The second mask contains a shifting feature configuration in one portion, while another portion blocks light transmission to the chip design area of the photoresist. After development of the photoresist layer, the pattern formed by illumination of the second mask can be compared with a predefined reference feature on the photoresist layer to determine whether a shift, if any, is within acceptable focus limits.
    • 通过用透射通过第一二进制掩模的光束照射光致抗蚀剂层来限定在下面的衬底上的电路图案,然后用不平衡的离轴光束照射光致抗蚀剂层来提供用于光刻应用的聚焦监控,所述非平衡离轴光束透射通过第二 二进制掩码 第二掩模包含一部分中的移动特征构造,而另一部分遮挡到光致抗蚀剂的芯片设计区域的光透射。 在光致抗蚀剂层的显影之后,通过第二掩模的照射形成的图案可以与光致抗蚀剂层上的预定参考特征进行比较,以确定移位(如果有的话)是否在可接受的聚焦限度内。
    • 10. 发明申请
    • METHODS FOR FABRICATING SEMICONDUCTOR DEVICES
    • 制造半导体器件的方法
    • US20110014790A1
    • 2011-01-20
    • US12505961
    • 2009-07-20
    • Ryoung-Han KIM
    • Ryoung-Han KIM
    • H01L21/308
    • H01L21/0273H01L21/0337H01L21/0338
    • Methods are provided for fabricating a semiconductor device on and in a semiconductor substrate. In one embodiment, a method comprises the steps of forming etch masking features overlying the semiconductor substrate, the etch masking features having a first thickness, and forming an etch barrier layer overlying the substrate, the etch barrier layer having a second thickness less than or substantially equal to the first thickness. The method also comprises removing the etch masking features to expose the substrate, and etching the substrate using the etch barrier layer as an etch mask.
    • 提供了用于在半导体衬底上和半导体衬底中制造半导体器件的方法。 在一个实施例中,一种方法包括以下步骤:形成覆盖半导体衬底的蚀刻掩模特征,蚀刻掩模特征具有第一厚度,以及形成覆盖衬底的蚀刻阻挡层,蚀刻阻挡层具有小于或基本上 等于第一厚度。 该方法还包括去除蚀刻掩模特征以暴露衬底,以及使用蚀刻阻挡层作为蚀刻掩模蚀刻衬底。