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1.
余晨辉  王茺  龚谦  张波  陆卫 《物理学报》2006,55(9):4934-4939
运用压电调制反射光谱(PzR)方法测量了在以GaAs(311)B为衬底的In0.35Ga0.65As模板上生长的InAs表面量子点结构的反射谱.在77K温度下,观察到了来自样品各个组成结构(包括表面量子点本身、被覆盖层覆盖的量子点、In0.35Ga0.65As模板以及GaAs衬底等)的调制信号.来自表面量子点本身的调制信号是多个清晰的调制峰.用一阶和三阶微分洛伦兹线形对PzR谱中对应结构的实验数据进行了拟合,精确确定了与样品的各个组成结构相对应的调制峰的能量位置.对不同样品PzR谱的差异进行了定性的说明. 关键词: 压电调制光谱 InAs/GaAs 表面量子点 洛伦兹线形拟合  相似文献   

2.
MBE自组织生长多层竖直自对准InAs量子点结构的研究   总被引:1,自引:0,他引:1       下载免费PDF全文
朱东海  范缇文 《发光学报》1997,18(3):228-231
利用MBE方法在(001)GaAs衬底上生长了多层竖直自对准InAs量子点结构。透射电子显微镜的观察表明,多层量子点成一系列柱状分布。同单层量子点相比,多层量子点的光荧光谱线发生红移。这表明由于量子点中载流子波函数的扩展和交迭,柱中量子点之间有耦合现象发生。光荧光谱线半高宽随温度的反常变化说明载流子还会在邻近柱中隧穿.  相似文献   

3.
用高能离子注入(160keV)的方法对InAs/GaAs量子点结构进行掺杂,研究了不同退火工艺处理后量子点的光致发光和电学性能.相对于长时间退火,快速退火处理后的量子点发光通常较强.在相同的退火条件下,量子点发光峰位随着Mn注入剂量的增加,先是往高能量端快速移动,而后发光峰又往低能方向移动.后者可能是由于Mn原子进入InAs量子点,释放了InAs量子点中的应变所致.对于高注入剂量样品和长时间退火样品,变温电阻曲线在40 K附近会出现反常行为. 关键词: 离子注入 InAs/GaAs量子点 光致发光 团簇  相似文献   

4.
利用分子束外延技术,通过InAs/GaAs数字合金超晶格代替传统的直接生长InGaAs层的方式,在GaAs(100)衬底上生长了InAs量子点结构并成功制备了1.3μm InAs量子点激光器.通过原子力显微镜和光致荧光谱测试手段,对传统生长模式和数字合金超晶格生长模式的两种样品进行了表征,研究发现采用32周期InAs/GaAs数字合金超晶格样品的量子点密度非常高,发光性能良好.通过与常规生长方式所制备激光器的性能对比,发现采用InAs/GaAs数字合金超晶格生长InAs量子点的有源区也可以得到高质量的激光器.利用该方式生长的InAs量子点激光器的阈值电流为24 mA,相应的阈值电流密度仅为75 A/cm2,最高工作温度达到120℃.InAs/GaAs数字合金超晶格既可以保证生长过程中源炉的温度保持不变,还可以对InGaAs层的组分实现灵活调控.不需要改变生长速度,通过改变InAs/GaAs数字合金超晶格的周期数以及InAs层和GaAs层的厚度,便可以获得任意组分的InGaAs,从而得到不同发光波长的激光器.这种生长方式对量子点有源区的结构设计和外延生长提供了新思路.  相似文献   

5.
InAs/GaAs量子点是重要的单光子源,位置可控量子点对实现可寻址易集成的高性能量子点光源具有重要意义.本文详细研究了氢原子条件下GaAs (001)图形衬底的低温脱氧过程,低温GaAs缓冲层生长中沟槽形貌的演化过程,以及沟槽形貌对量子点形核位置的影响.发现GaAs衬底上纳米沟槽侧壁的倾斜角较小时, InAs量子点会优先生长于沟槽底部;当沟槽的侧壁倾斜角较大时, InAs量子点则会优先生长于沟槽两侧的外边沿位置.此外,本文还研究了纳米孔洞侧壁的倾斜角对量子点成核位置的影响,实现了双量子点分子和四量子点分子的定位生长.  相似文献   

6.
自组织生长InAs/GaAs量子点发光动力学研究   总被引:1,自引:1,他引:0       下载免费PDF全文
介绍了最新发展的粒子数混合超快光谱测量技术,以及采用该技术对自组织生长InAs/GaAs量子点发光动力学的研究结果.实验发现,自组织InAs/GaAs量子点结构的发光寿命大约为1ns,与InAs层厚度关系不大;激子寿命与温度有一定的关系,但没有明显的实验证据表明与量子点的δ态密度有关;用粒子数混合技术,实验上可直接观察到量子点中载流子在激发态能级的态填充过程. 关键词:  相似文献   

7.
垂直腔面发射激光器的结构生长及特性研究   总被引:1,自引:1,他引:0  
在偏〈111〉A 2°的GaAs (100) 衬底上生长了Al0.9Ga0.1As /Al0.2Ga0.8As周期结构的垂直腔面发射激光器(VCSEL)外延片P 型DBR的周期数为24.5对,N型DBR的周期数为34.5对.用光荧光 (PL) 谱、扫描电子显微镜 (SEM)和X射线双晶衍射 (XRD) 方法对VCSEL的光学特性和结构特性进行了分析室温量子阱材料的PL谱峰值波长为837.0 nm,半高宽达到28.9 nm在X射线双晶衍射回摆曲线中,除了“0”级衍射峰外,还观察到一级和二级卫星峰.“0”级双晶衍射峰的半高宽为12.56弧秒(″),衬底GaAs的衍射峰半高宽为11.79″.“0”级衍射峰半高宽与衬底GaAs的衍射峰半高宽比较接近,表明晶格具有很高的完整性.实验结果表明腔模波长为837.2 nm,腔模波长与PL谱峰值波长相匹配.  相似文献   

8.
利用液滴外延法在GaAs(001)衬底表面制备InAs量子点,通过控制变量分别研究沉积速率、沉积量对In液滴在GaAs表面生长过程中的影响.使用原子力显微镜(Atomic Force Microscope, AFM)表征InAs纳米结构形貌,得出结论:(1)沉积速率主要通过影响In液滴成核率来控制液滴的密度,即随着沉积速率的增大,In原子在衬底表面的成核率增加,InAs量子点密度增加,实验符合生长动力学经典成核理论.(2)沉积量的改变主要影响液滴的熟化过程,即随着沉积量的增大,可参与生长的活跃的In原子增加,促进了液滴熟化,使得扩散坍塌的原子数量增加,导致在InAs纳米结构中出现多量子点现象.  相似文献   

9.
基于现有的实验,利用不同频率的光脉冲耦合到InAs/GaAs量子点的不同能级之间可形成梯形、Λ形和V形等3类量子点电磁诱导透明介质.继而研究这三类能级构型InAs/GaAs量子点电磁诱导透明介质中的光孤子形成和存储性质,结果表明,梯形和Λ形InAs/GaAs量子点体系不但可形成光孤子还可以实现光孤子的存储与读取,且其所存储光孤子的保真度比光存储的保真度高;但V形InAs/GaAs量子点体系却不能形成光孤子,这是由于体系的非线性效应非常弱.有趣的是在相同的实验参数下,Λ形InAs/GaAs量子点体系所存储的光孤子幅度比梯形所存储的光孤子幅度大.这为半导体量子点器件对所存储光孤子进行调幅操作提供了理论依据.  相似文献   

10.
研究了双层堆垛InAs/GaAs/InAs自组织量子点的生长和光致发光(PL)的物理性质。通过优化InAs淀积量、中间GaAs层厚度以及InAs量子点生长温度等生长条件,获得了室温光致发光1391~1438nm的高质量InAs量子点。研究发现对量子点GaAs间隔层实施原位退火、采用Sb辅助生长InGaAs盖层等方法可以增强高密度(2×1010 cm-2)InAs量子点的发光强度,减小光谱线宽,改善均匀性和红移发光波长。  相似文献   

11.
We have investigated the In(Ga)As island formation, in the Stranski-Krastanov growth mode, on (311)A GaAs substrates. The surface topography of InAs and InGaAs strained epilayers was studied by contact microscopies. The different substrate affects the overgrown island shape. In(Ga)As grown on (311)A gives rise to quantum wire-like islands. Quantum dots (QDs), but with highly anisotropic shapes, are the outcomes of InAs deposition. QD samples were also characterized by photoluminescence (PL) measurements. Correlation between optical and morphological properties was observed.  相似文献   

12.
刘智  李亚明  薛春来  成步文  王启明 《物理学报》2013,62(7):76108-076108
利用超高真空化学气相沉积设备, 在Si (001) 衬底上外延生长了多个四层Ge/Si量子点样品. 通过原位掺杂的方法, 对不同样品中的Ge/Si量子点分别进行了未掺杂、磷掺杂和硼掺杂. 相比未掺杂的样品, 磷掺杂不影响Ge/Si量子点的表面形貌, 但可以有效增强其室温光致发光; 而硼掺杂会增强Ge/Si量子点的合并, 降低小尺寸Ge/Si量子点的密度, 但其光致发光会减弱. 磷掺杂增强Ge/Si量子点光致发光的原因是, 磷掺杂为Ge/Si量子点提供了更多参与辐射复合的电子. 关键词: Ge/Si量子点 磷掺杂 光致发光  相似文献   

13.
Photoluminescence (PL) measurements have been carried out to investigate the annealing effects in one-period and three-periods of InAs/GaAs self-assembled quantum dots (QDs) grown on GaAs substrates by using molecular beam epitaxy. After annealing, the PL spectra for the annealed InAs/GaAs QDs showed dramatic blue shifts and significant linewidth narrowing of the PL peaks compared with the as-grown samples. The variations in the PL peak position and the full width at half-maximum of the PL peak are attributed to changes in the composition of the InAs QDs resulting from the interdiffusion between the InAs QDs and the GaAs barrier and to the size homogeneity of the QDs. These results indicate that the optical properties and the crystal qualities of InAs/GaAs QDs are dramatically changed by thermal treatment.  相似文献   

14.
Photoluminescence (PL) properties of 3-mercaptopropionic acid (MPA) coated CdTe/CdS core-shell quantum dots (QDs) in aqueous solution in the presence of ZnO colloidal nanocrystals were studied by steady-state and time-resolved PL spectroscopy. The PL quenching of CdTe/CdS core-shell QDs with addition of purified ZnO nanocrystals resulted in a decrease in PL lifetime and a small red shift of the PL band. It was found that CdTe(1.5 nm)/CdS type II core-shell QDs exhibited higher efficiency of PL quenching than the CdTe(3.0 nm)/CdS type I core-shell QDs, indicating an electron transfer process from CdTe/CdS core-shell QDs to ZnO nanocrystals. The experimental results indicated that the efficient electron transfer process from CdTe/CdS core-shell QDs to ZnO nanocrystals could be controlled by changing the CdTe core size on the basis of the quantum confinement effect.  相似文献   

15.
GaAsSb strain-reducing layers (SRLs) are applied to cover InAs quantum dots (QDs) grown on GaAs substrates. The compressive strain induced in InAs QDs is reduced due to the tensile strain induced by the GaAsSb SRL, resulting in a redshift of photoluminescence (PL) peaks of the InAs QDs. A strong PL signal around a wavelength of 1.3 μm was observed even at room temperature. A laser diode containing InAs QDs with GaAsSb SRLs in the active region was fabricated, which exhibits laser oscillation in pulsed operation at room temperature. These results indicate that GaAsSb SRLs have a high potential for fabricating high efficient InAs QDs laser diodes operating at long-wavelength regimes.  相似文献   

16.
量子点(QD)照明器件中电流导致的焦耳热会使其工作温度高于室温,因此研究量子点的发光热稳定性十分重要。本文利用稳态光谱和时间分辨光谱研究了具有不同壳层厚度的Mn掺杂ZnSe(Mn: ZnSe)量子点的变温发光性质,温度范围是80~500 K。实验结果表明,厚壳层(6.5单层(MLs))Mn: ZnSe量子点的发光热稳定性要优于薄壳层(2.6 MLs)的量子点。从80 K升温到400 K的过程中,厚壳层Mn: ZnSe量子点的发光几乎没有发生热猝灭,发光量子效率在400 K高温下依然可以达到60%。通过对比Mn: ZnSe量子点的变温发光强度与荧光寿命,对Mn: ZnSe量子点发光热猝灭机制进行了讨论。最后,为了研究Mn: ZnSe量子点的发光热猝灭是否为本征猝灭,对具有不同壳层厚度的Mn: ZnSe量子点进行了加热-冷却循环(300-500-300 K)测试,发现厚壳层的Mn: ZnSe量子点的发光在循环中基本可逆。因此,Mn: ZnSe量子点可以适用于照明器件,即使器件中会出现不可避免的较强热效应。  相似文献   

17.
CdTe quantum dots (QDs) were prepared in an aqueous solution using various mercaptocarboxylic acids, such as 3-mercaptopropionic acid (MPA) and thioglycolic acid (TGA), as stabilizing agents. The experimental result indicated that these stabilizing agents played an important role for the properties of the QDs. Although both TGA and MPA-capped CdTe QDs exhibited the tunable photoluminescence (PL) from green to red color, the TGA-capped QDs revealed a higher PL quantum yield (QY) up to 60% than that of MPA-capped QDs (up to 50%) by using the optimum preparation conditions, such as a pH value of ~11.2 and a TGA/Cd molar ratio of 1.5. PL lifetime measurements indicate that the TGA-capped QDs exhibited a short average lifetime while the MPA-capped QDs revealed a long one. Furthermore, the average lifetime of the TGA-capped QDs increased with the increase of the QDs size, while a decreased lifetime for the MPA-capped QDs was obtained. This means that the PL lifetime depended strongly on the surface state of the CdTe QDs. These results should be utilized for the preparation and applications of QDs.  相似文献   

18.
In this letter, we present results of photoluminescence (PL) emission from single-layer and multilayer InAs self-organized quantum dots (QDs), which were grown on (001) InP substrate. The room temperature PL peak of the single-layer QDs locates at 1608 nm, and full width at half-maximum (FWHM) of the PL peak is 71 meV. The PL peak of the multilayer QDs locates at 1478 nm, PL intensity of which is stronger than that of single-layer QDs. The single-layer QD PL spectra also display excited state emission and state filling as the excitation intensity is increased. Low temperature PL spectra show a weak peak between the peaks of QDs and wetting layer (WL), which suggests the recombination between electrons in the WL and holes in the dots.  相似文献   

19.
ZnCuInS量子点的变温光致发光   总被引:2,自引:2,他引:0       下载免费PDF全文
测量了红色和深红色发光的ZnCuInS量子点在100~300 K温度范围内的光致发光光谱,研究了ZnCuInS量子点的发光机理,对ZnCuInS量子点的发光峰值能量、线宽和积分强度与温度的关系进行了细致的分析。在ZnCuInS量子点中观察到一种反常的发光峰值能量随着温度升高而增加的现象,同时发现ZnCuInS量子点的发光线宽很宽,约为300 meV,拟合积分强度与温度的关系曲线所得到的激活能为100 meV。这些结果表明,ZnCuInS量子点的发光不可能只来源于一种发光中心,而应该是来源于ZnCuInS量子点内部及表面的多种缺陷相关的多种发光中心组合。  相似文献   

20.
A kind of novel thermal history nanosensors are theoretically designed and experimentally demonstrated to permanently record thermal events. The photoluminescence (PL) spectrum of core‐shelled quantum dots (QDs) CdSe/ZnS irreversibly shifts with heating histories (temperature and duration) of thermal events. The induced PL shift of the QDs CdSe/ZnS is employed to permanently record thermal histories. We further model a kind of thermal history nanosensor based on the thermal‐induced phenomena of core‐shelled QDs to permanently record thermal histories at microscale and demonstrate to reconstruct temperature and duration of heating events simultaneously from PL spectra of the QDs. The physical mechanism of the sensors is discussed.  相似文献   

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