公开(公告)号：US06326646B1

公开(公告)日：2001-12-04

申请号：US09448929

申请日：1999-11-24

申请人： James Nelson Baillargeon ,  Federico Capasso ,  Alfred Yi Cho ,  George Sung-Nee Chu ,  Claire Gmachl ,  Albert Lee Hutchinson ,  Arthur Mike Sergent ,  Deborah Lee Sivco ,  Alessandro Tredicucci

发明人： James Nelson Baillargeon ,  Federico Capasso ,  Alfred Yi Cho ,  George Sung-Nee Chu ,  Claire Gmachl ,  Albert Lee Hutchinson ,  Arthur Mike Sergent ,  Deborah Lee Sivco ,  Alessandro Tredicucci

IPC分类号： H01L3300

CPC分类号： B82Y20/00 ,  H01S5/0202 ,  H01S5/02268 ,  H01S5/02272 ,  H01S5/02469 ,  H01S5/0425 ,  H01S5/2275 ,  H01S5/3402

摘要： A mounting technology that increases the cw operating temperature of intersubband lasers, without increasing the risk of hot spots near the facets and short circuits near the perimeter of the laser chip, is described. In accordance with one embodiment of our invention, a method of fabricating a intersubband semiconductor laser comprises the steps of providing a single crystal semiconductor substrate, forming on the substrate an epitaxial region that includes a core region and an intersubband active region in the core region, forming front and back facets that define an optical cavity resonator, forming a metal electrode on the epitaxial region so as to provide an electrical connection to said active region, and mounting said laser on a heat sink, characterized in that the mounting step includes the steps of (i) soldering the electrode to the heat sink so that the front facet overhangs an edge of the heat sink and (ii) cleaving off the overhanging portion of the laser so as to form a new front facet that is essentially flush with the edge of said heat sink. In accordance with another embodiment, our invention is further characterized in that metal electrode to the epitaxial region is recessed from the edges of the laser chip. In accordance with yet another embodiment, our invention is further characterized in that the back facet of the laser is coated so that any solder that might tend to creep onto the back facet contacts the coating and not semiconductor material (in particular the ends of the active region).

摘要翻译： 描述了增加带间激光器的cw工作温度的安装技术，而不增加靠近激光芯片周边的面和短路附近的热点的风险。 根据本发明的一个实施例，一种制造子带间半导体激光器的方法包括以下步骤：提供单晶半导体衬底，在衬底上形成包含核心区域和芯区域中的子带间有源区域的外延区域， 形成限定光腔谐振器的前和后刻面，在所述外延区域上形成金属电极，以提供与所述有源区域的电连接，以及将所述激光器安装在散热器上，其特征在于，所述安装步骤包括步骤 （i）将电极焊接到散热器，使得前刻面突出于散热器的边缘，并且（ii）从激光器的悬垂部分分离，以形成基本上与边缘齐平的新的前刻面 的所述散热器。 根据另一个实施例，本发明的特征还在于，到外延区域的金属电极从激光芯片的边缘凹进。 根据又一个实施例，本发明的特征还在于，激光器的后面被涂覆，使得任何可能趋于蠕变到背面上的焊料与涂层接触而不是半导体材料（特别是活性物质的端部） 地区）。

公开(公告)号：US06463088B1

公开(公告)日：2002-10-08

申请号：US09611886

申请日：2000-07-07

申请人： James Nelson Baillargeon ,  Federico Capasso ,  Alfred Yi Cho ,  Claire Gmachl ,  Albert Lee Hutchinson ,  Harold Yoonsung Hwang ,  Roberto Paiella ,  Arthur Mike Sergent ,  Deborah Lee Sivco ,  Alessandro Tredicucci

发明人： James Nelson Baillargeon ,  Federico Capasso ,  Alfred Yi Cho ,  Claire Gmachl ,  Albert Lee Hutchinson ,  Harold Yoonsung Hwang ,  Roberto Paiella ,  Arthur Mike Sergent ,  Deborah Lee Sivco ,  Alessandro Tredicucci

IPC分类号： H01S500

CPC分类号： B82Y20/00 ,  H01S5/1064 ,  H01S5/12 ,  H01S5/1228 ,  H01S5/2205 ,  H01S5/2218 ,  H01S5/222 ,  H01S5/2224 ,  H01S5/2227 ,  H01S5/227 ,  H01S5/3402

摘要： In a mesa geometry semiconductor laser, a patterned dielectric coating used to define the stripe geometry contact on the top the mesa and to provide significant waveguiding comprises a chalcogenide glass. Applications to intersubband (e.g., quantum cascade) lasers are specifically described.

摘要翻译： 在台面几何半导体激光器中，用于限定台面顶部上的条纹几何接触并提供显着波导的图案化电介质涂层包括硫族化物玻璃。 具体描述了对子带间（例如量子级联）激光器的应用。

公开(公告)号：US06795467B2

公开(公告)日：2004-09-21

申请号：US09826237

申请日：2001-04-04

申请人： Federico Capasso ,  Alfred Yi Cho ,  Raffaele Colombelli ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Arthur Mike Sergent ,  Deborah Lee Sivco ,  Alessandro Tredicucci

发明人： Federico Capasso ,  Alfred Yi Cho ,  Raffaele Colombelli ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Arthur Mike Sergent ,  Deborah Lee Sivco ,  Alessandro Tredicucci

IPC分类号： H01S319

CPC分类号： B82Y20/00 ,  H01S5/0014 ,  H01S5/0264 ,  H01S5/0683 ,  H01S5/1078 ,  H01S5/3402

摘要： The measurement of intersubband electroluminescence (ISB-EL) in unipolar quantum cascade lasers is achieved by forming a longitudinal cleave through the active region and waveguide of the QC laser device, exposing a complete side face of the device, including the active region. The conventional laser facets at the entrance and exit of the active region are coated with a highly reflective material and the emission from the exposed side face is measured. In theory, the sideface emission would comprise only the ISB-EL spontaneous emission, but some additional laser emission (due to scattering in the imperfect waveguide structure) also exits along this sideface. Spatial filtering and/or polarization monitoring can be used to differentiate the laser emission from the ISB-EL spontaneous emission.

摘要翻译： 在单极量子级联激光器中的子带间电致发光（ISB-EL）的测量通过形成纵向切割通过QC激光器件的有源区和波导来实现，暴露了包括有源区的器件的完整侧面。 在有源区域的入口和出口处的常规激光刻面涂覆有高反射材料，并且测量来自暴露侧面的发射。 在理论上，侧面发射将仅包括ISB-EL自发发射，但是一些额外的激光发射（由于在不完美的波导结构中的散射）也沿该侧面退出。 空间滤波和/或偏振监测可用于区分激光发射与ISB-EL自发发射。

公开(公告)号：US06556604B1

公开(公告)日：2003-04-29

申请号：US09708223

申请日：2000-11-08

申请人： Federico Capasso ,  Alfred Yi Cho ,  Sung-Nee George Chu ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Arthur Mike Sergent ,  Deborah Lee Sivco ,  Alessandro Tredicucci ,  Michael Clement Wanke

发明人： Federico Capasso ,  Alfred Yi Cho ,  Sung-Nee George Chu ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Arthur Mike Sergent ,  Deborah Lee Sivco ,  Alessandro Tredicucci ,  Michael Clement Wanke

IPC分类号： H01S500

CPC分类号： B82Y20/00 ,  H01S5/3402 ,  H01S5/3407

摘要： The RT regions of an ISB light emitter comprise pre-biased SLs and a multiplicity of split quantum wells (SPQWs). A SPQW is a quantum well that is divided into a multiplicity of sub-wells by a first barrier layer sufficiently thin that the upper and lower energy states are split beyond their natural broadening and contribute to different minibands in each RT region. In contrast, adjacent SPQWs are coupled to one another by second barrier layers. The thicknesses of the latter layers are chosen so that minibands are created across each RT region. In one embodiment, the emitter includes an I/R region between adjacent RT regions, and in another embodiment the I/R regions are omitted.

摘要翻译： ISB光发射器的RT区域包括预偏置SL和多个分裂量子阱（SPQW）。 SPQW是通过第一势垒层被分成多个子阱的量子阱，其足够薄，使得上部和下部能量状态被分裂超出它们的自然扩宽并且有助于每个RT区域中的不同的微型物体。 相反，相邻的SPQW通过第二阻挡层相互耦合。 选择后一层的厚度，以便在每个RT区域上形成最小值。 在一个实施例中，发射器包括相邻RT区域之间的I / R区域，在另一实施例中，I / R区域被省略。

公开(公告)号：US6137817A

公开(公告)日：2000-10-24

申请号：US96701

申请日：1998-06-12

申请人： James Nelson Baillargeon ,  Federico Capasso ,  Alfred Yi Cho ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Deborah Lee Sivco ,  Alessandro Tredicucci

发明人： James Nelson Baillargeon ,  Federico Capasso ,  Alfred Yi Cho ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Deborah Lee Sivco ,  Alessandro Tredicucci

IPC分类号： H01S5/00 ,  H01S5/34 ,  H01S5/343

CPC分类号： B82Y20/00 ,  H01S5/3402

摘要： A novel quantum cascade (QC) laser comprises a multiplicity of identical repeat units, with each repeat unit comprising an active region and an injector region. The injector region comprises quantum wells and barriers, selected to facilitate, under appropriate bias, resonant carrier transport from a lower energy level of a given active region to an upper energy level of an adjacent downstream active region. Carrier transition from the upper energy level to a lower energy level of an active region results in emission of infrared radiation. The laser is advantageously used in, e.g., a measurement system for detection of trace compounds in air.

摘要翻译： 新型量子级联（QC）激光器包括多个相同的重复单元，每个重复单元包括有源区和注入区。 喷射器区域包括量子阱和阻挡层，其被选择为有助于在适当的偏置下促进谐振载流子从给定有源区域的较低能量水平传输到相邻下游有源区域的较高能级。 从有功区域的较高能量级到较低能级的载波转变导致红外辐射的发射。 该激光器有利地用于例如用于检测空气中微量化合物的测量系统。

公开(公告)号：US06324199B1

公开(公告)日：2001-11-27

申请号：US09195260

申请日：1998-11-18

申请人： Federico Capasso ,  Alfred Yi Cho ,  Sung-Nee George Chu ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Deborah Lee Sivco ,  Alessandro Tredicucci

发明人： Federico Capasso ,  Alfred Yi Cho ,  Sung-Nee George Chu ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Deborah Lee Sivco ,  Alessandro Tredicucci

IPC分类号： H01S500

CPC分类号： B82Y20/00 ,  H01S5/3402

摘要： An intersubband semiconductor light source comprises a core region that includes a unipolar, radiative transition (RT) region having upper and lower energy levels, an injector-only (I) region disposed on one side of the RT region, and a reflector/extractor-only (R/E) region disposed on the other side of the RT region. The I region has a first miniband of energy levels aligned so as to inject electrons into the upper energy level, and the R/E region has a second miniband of energy levels aligned so as to extract electrons from the lower energy level. The R/E region also has a minigap aligned so as to inhibit the extraction of electrons from the upper level. A suitable voltage applied across the core region is effective to cause the RT region to generate light at a wavelength determined by the energy difference between the upper and lower energy levels. Low voltage operation at less than 3 V is described.

摘要翻译： 子带间半导体光源包括芯区域，其包括具有上和下能级的单极辐射跃迁（RT）区域，设置在RT区域的一侧上的仅注射器（I）区域，以及反射器/ （R / E）区域设置在RT区域的另一侧。 I区具有对准能量水平的第一小能级以将电子注入到上能量级中，并且R / E区具有对准的能级的第二小容纳，从而从较低的能级提取电子。 R / E区域也具有微小的栅极排列，从而抑制从上层提取电子。 在芯区域上施加的合适电压有效地使得RT区域产生由上和下能量级之间的能量差确定的波长的光。 描述低于3V的低电压操作。

公开(公告)号：US06501783B1

公开(公告)日：2002-12-31

申请号：US09512566

申请日：2000-02-24

申请人： Federico Capasso ,  Alfred Yi Cho ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Deborah Lee Sivco ,  Alessandro Tredicucci

发明人： Federico Capasso ,  Alfred Yi Cho ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Deborah Lee Sivco ,  Alessandro Tredicucci

IPC分类号： H01S500

CPC分类号： B82Y20/00 ,  H01S5/1046 ,  H01S5/187 ,  H01S5/3402

摘要： A surface plasmon laser structure is formed to include a DFB structure as the metal carrying layer, thus forming a single mode surface plasmon laser. The DFB structure comprises a multiple layer metallic surface guiding structure (for example, titanium stripes covered with a layer of gold. forming alternating Ti/Au—Au stripes). The active region, in one embodiment, may comprise a quantum cascade structure.

摘要翻译： 形成表面等离子体激元结构以包括DFB结构作为金属承载层，从而形成单模表面等离子体激元。 DFB结构包括多层金属表面引导结构（例如，覆盖有金层的钛条纹，形成交替的Ti / Au-Au条纹）。 在一个实施例中，有源区可以包括量子级联结构。

公开(公告)号：US6091753A

公开(公告)日：2000-07-18

申请号：US71219

申请日：1998-05-01

申请人： Federico Capasso ,  Alfred Yi Cho ,  Jerome Faist ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Deborah Lee Sivco ,  Alessandro Tredicucci

发明人： Federico Capasso ,  Alfred Yi Cho ,  Jerome Faist ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Deborah Lee Sivco ,  Alessandro Tredicucci

IPC分类号： H01S5/00 ,  H01S5/042 ,  H01S5/30 ,  H01S5/34 ,  H01S5/343 ,  H01S3/19

CPC分类号： B82Y20/00 ,  H01S5/3402 ,  H01S5/0421 ,  H01S5/305

摘要： A novel superlattice quantum cascade (SLQC) laser has undoped SL active regions, with the dopant concentration in the injector region being selected, such that, under an appropriate electrical bias, the SL active region is substantially electric field free. The absence of dopant atoms in the SL active region results in reduced carrier scattering and reduced optical losses, with consequent low threshold current and/or room temperature operation. The novel laser emits in the mid-IR spectral region and can be advantageously used in measurement or monitoring systems, e.g., in pollution monitoring systems.

摘要翻译： 新型超晶格量子级联（SLQC）激光器具有未掺杂的SL活性区域，其中选择注入器区域中的掺杂剂浓度，使得在适当的电偏压下，SL有源区域基本上不含电场。 在SL有源区域中不存在掺杂剂原子导致减少的载流子散射和减少的光学损耗，从而导致低阈值电流和/或室温操作。 新型激光器在中红外光谱区域中发射，并且可以有利地用于测量或监测系统，例如在污染监测系统中。

公开(公告)号：US6055254A

公开(公告)日：2000-04-25

申请号：US159127

申请日：1998-09-23

申请人： Federico Capasso ,  Alfred Yi Cho ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Deborah Lee Sivco ,  Alessandro Tredicucci

发明人： Federico Capasso ,  Alfred Yi Cho ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Deborah Lee Sivco ,  Alessandro Tredicucci

IPC分类号： H01L29/06 ,  H01L29/15 ,  H01S5/34 ,  H01S5/343 ,  H01S3/18 ,  H01S3/19

CPC分类号： B82Y20/00 ,  H01S5/3402

摘要： Instead of trying to keep the SLs of a QC laser field free, we "pre-bias" the actual electronic potential by varying the SL period (and hence average composition) so as to achieve an essentially flat profile, on average, of upper and lower minibands, despite the presence of an applied field in the SLs. In one embodiment, in at least a first subset of the QW layers, the thicknesses of the QW layers are varied from QW layer to QW layer so as to increase in the direction of the applied field. In this embodiment, the upper and lower lasing levels are located, in the absence of an applied electric field, each at different energies from layer to layer within the first subset, so that despite the presence of an applied field, the desired flatband condition of the upper and lower minibands is realized. In a preferred embodiment, the thicknesses of the QW layers within the first subset are varied from QW layer to QW layer so as to increase in the direction of the applied field, and the thicknesses of a second subset of the barrier layers are also varied from barrier layer to barrier layer so as to decrease or increase in the direction of the applied field.

摘要翻译： 不要试图保持QC激光场的SL不受限制，我们通过改变SL周期（因此平均组成）来“预先偏置”实际的电子电位，以便平均地获得上部和 尽管在SL中存在应用场，但是较低的迷你频段。 在一个实施例中，在QW层的至少第一子集中，QW层的厚度从QW层到QW层变化，以便在施加场的方向上增加。 在该实施例中，在没有所施加的电场的情况下，上和下激光电平各自处于第一子集内的层与层之间的不同能量，使得尽管存在施加的场，但是期望的平带条件 实现上下两个迷你吧。 在优选实施例中，第一子集内的QW层的厚度从QW层到QW层变化，以便在施加的场的方向上增加，并且阻挡层的第二子集的厚度也从 阻挡层到阻挡层，以便在施加的场的方向上减小或增加。

公开(公告)号：US06563852B1

公开(公告)日：2003-05-13

申请号：US09566348

申请日：2000-05-08

申请人： James Nelson Baillargeon ,  Federico Capasso ,  Alfred Yi Cho ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Roberto Paiella ,  Deborah Lee Sivco

发明人： James Nelson Baillargeon ,  Federico Capasso ,  Alfred Yi Cho ,  Claire F. Gmachl ,  Albert Lee Hutchinson ,  Roberto Paiella ,  Deborah Lee Sivco

IPC分类号： H01S500

CPC分类号： B82Y20/00 ,  H01S5/065 ,  H01S5/0657 ,  H01S5/2214 ,  H01S5/2216 ,  H01S5/2275 ,  H01S5/3402

摘要： A self-mode-locking (SML) mid-infrared (5 and 8 &mgr;m) quantum cascade laser is formed that comprises both a relatively thin dielectric insulating layer (i.e., less than one-half micron in thickness) overlaid with an optically highly lossy (i.e., absorbing) layer, with a relatively long (approximately 3.5 mm) optical waveguide. Evidence of mode-locking is obtained from the measured optical spectra and corresponding interferograms, as well as from the rf spectra of the photocurrent detected with a fast quantum-well infrared photodetector. An estimate for the pulse width of approximately 3 psec is inferred from these data.

摘要翻译： 形成自锁模（SML）中红外（5和8um）量子级联激光器，其包括覆盖有光学上高损耗的相对薄的介电绝缘层（即，小于半微米厚） （即吸收）层，具有较长（约3.5mm）的光波导。 模式锁定的证据是从测量的光谱和相应的干涉图以及从用快速量子阱红外光电探测器检测的光电流的rf光谱获得的。 从这些数据推断出脉冲宽度约为3psec的估计值。