367 resultados para Cond
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The relationship of macrozoobenthos communities with some environmental variables, and their response to the ongoing restoration measures were studied in a small hypertrophic urban lake near the Yangzte River, China. Twenty taxa including 9 oligochaetes, 7 insects, 2 mollusks and two other animals were found during March 2005 to May 2006. The reappearance of some indigenous macrozoobenthos species showed that the ecological engineering remediation carried out was helpful for the recovery of the macrozoobenthos communities. Through canonical correspondence analysis (CCA), it was detected that temperature (T), conductivity (COND), Secchi depth/deep (SD/Deep), TN, total suspended solids (SS) and chemical oxygen demand (CODcr) were significant environmental factors that influenced the pattern of macrozoobenthos. Limnodrilus hoffmeisteri, Tanypus sp. and Alocinma longicornis could be used as potential bio-indicators in monitoring the development of ecological restoration.
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浑河西源头区(辽东山区)次生林生态系统在水源涵养、水土保持和调节水源功能等方面起着非常重要的作用,浑河作为沈阳和抚顺两市的母亲河,其水质的优劣直接影响到当地的生产和生活。为更好地了解该区水源涵养林的水分循环、森林对于雨水的作用及不同土地利用方式对于浑河水质的影响,本文测定了辽东山区主要森林类型穿透雨和溪流的理化性质,同时监测了浑河上游沿线(浑河西源头-抚顺下游)的水质。其主要结果如下: 与林外雨相比,1)五种林型(红松人工林、落叶松人工林、蒙古栎林、花曲柳林和杂木林)穿透雨均出现了显著酸化(P<0. 05),其酸化程度较严重的为红松林和落叶松林,其次为杂木林、蒙古栎林和花曲柳林;2)由于雨水对于干沉降的冲刷和林冠与雨水中离子的交换,五种林型穿透雨电导率(COND)值和总溶解固体(TDS)含量显著升高(P<0. 05),升高顺序依次为:蒙古栎林>花曲柳林>落叶松林>杂木林>红松林;3)由于雨水溶解了干沉降物质和林冠附生生物吸收了雨水中的溶解氧,五种林型穿透雨的溶解氧(DO)浓度显著降低(P<0. 05),其中,落叶松林和蒙古栎林降低幅度较大,其次为花曲柳林、杂木林和红松林;4)由于干沉降物质中含有Cl-离子且植物体对于Cl-吸收较小所致,五个林型穿透雨中Cl-浓度较林外雨明显升高,Cl-浓度由大到小依次为:落叶松林>蒙古栎林>杂木林>花曲柳林>红松林;5)花曲柳林、蒙古栎林和杂木林穿透雨中NO3-浓度均高于林外雨,说明雨水对于植物体表面物质中的NO3-淋溶和冲刷占主导作用;而落叶松林和红松林穿透雨NO3-浓度低于林外雨,因为针叶林具有较大的叶面积指数,其林冠吸附了雨水中的NO3-。 浑河上游沿线水质(浑河西源头即清原森林生态实验站、红河漂流源头、 红河漂流尾点、清原县城上游、清原县城下游、四道河、四道河和英额河汇合后、 红透山镇上游、红透山镇下游、大伙房水库和抚顺市下游)变化(1)从清原森林生态实验站到红河漂流下游浑河水质变化如下:电导率值和总溶解固体含量升高、浊度增加、溶解氧浓度下降、温度(T)升高、氧化还原电位(ORP)增加、氯离子和硝氮浓度升高,主要由于沿线居民生活生产排放和红河漂流的人为废弃物导致;2) 河水流经清原县城和红透山镇后:pH值减小、电导率值升高、溶解氧浓度减小、温度上升、氧化还原电位下降、硝态氮浓度减小,由于清原县城和红透山镇密集的居民活动及工业排放导致;3) 抚顺下游和其他采样点相比:电导率值最高、浊度最高、溶解氧浓度最低、温度最高、氯离子和硝氮浓度最高,主要由于抚顺市区密集的人口活动和工业排放导致。 林外雨、穿透雨和溪流水理化性质相比:pH穿透雨<pH林外雨<pH溪流水, COND林外雨<COND 穿透雨<COND溪流水,DO穿透雨 <DO林外雨<DO溪流水,ORP溪流水< ORP林外雨< ORP穿透雨,Cl- 林外雨<Cl-穿透雨< Cl-溪流水,NO3- 林外雨<NO3-穿透雨<NO3-溪流水。
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The spreading behavior of poly(2-acrylamidohexadecylsulfonic acid-co-styrene) (PAMC16SSt) random co-polymers with various compositions was investigated by measurements of the surface pressure-area (pi-A) isotherms. The random copolymers formed stable cond
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洞穴次生化学沉积物作为探索区域性、全球性气候变化规律和环境变迁史最重要的“信息库”之一,取得了不少有价值的研究成果。但同时,随着高分辨、短时间尺度气候-环境变化记录研究的开展与数据的进一步积累,也发现此类研究目前存在着一些问题与局限性。事实上,洞穴次生化学沉积物环境替代指标的形成经历了一系列复杂的过程,包含的影响因数相对较多。总的来说,其形成过程从大气降雨开始,穿越土壤层、洞穴盖板层到洞穴内滴水中CO2逸出、过饱和的CaCO3结晶和水中携带的不溶物沉淀。其中在不同的气候与环境条件下水与各层(如土壤层、表层喀斯特和潜水带等)中媒介之间发生的物理化学过程决定了环境替代指标的真实涵义。但目前有关这些替代指标的形成过程及其影响因子、适用性等方面的研究工作相当薄弱,尽管包括本文作者所在课题组在内的一些学者已认识到这一工作的重要性,零星做了一点工作,但还无法形成系统的认识。 在我国西南部,缺少类似我国北方的巨厚黄土堆积,但岩溶发育,且连片分布,其面积居世界首位(东亚喀斯特片区的中心)。因此,在该地区气候环境变迁史研究中,环境记录“档案”——洞穴次生化学沉积物在该方面所起的作用具有与北方黄土一样的重要意义。该研究为利用洞穴次生化学沉积物的地球化学特征恢复古生态环境意义的研究奠定坚实的理论基础。基于此,我们选择我国西南喀斯特发育最为典型的贵州作为研究区域,通过对分布于境内不同地方100多个洞穴进行实地考察和综合评判之后,筛选出一个系列的4个喀斯特洞穴作为研究对象,分别选取一定数量采样点进行采样。在前人研究的基础上,更加深入系统地对该4个洞穴系统中的稳定同位素(碳和氧同位素)进行研究。 分别系统地采集了4个洞穴系统中的大气、植物、土壤、土壤空气、土壤水、基岩、泉水、洞穴滴水、洞穴空气、塘水、潭水和滴水对应的洞穴次生化学沉积物等,现场测试pH值、电导率(Cond.)和气温(T)等,室内分别测试了稳定同位素和其他相关指标(如各种离子浓度等),以期开展不同生态环境条件下正在形成的洞穴次生化学沉积物及其对应的洞穴滴水的地球化学特征的比较研究,揭示它们对气候环境变化的响应机制,即稳定同位素等洞穴次生化学沉积物环境替代指标的现代形成过程以及各种影响因子。 本研究主要取得以下几点认识: 1. 虽然缺乏同气候、等海拔和生物量在10~90 t/hm2之间的植被序列洞穴的对比,以及对土壤有机质和土壤微生物活性等的相关试验研究,但根据分析仍可获知,洞穴化学次生沉积物的碳同位素的生物量效应是由植物碳同位素及土壤CO2微生物分馏作用机制共同制约。也就是说,洞穴沉积物碳同位素信号所反映的信息包括植被碳同位素组成及其生物量所控制的土壤性质(如微生物等),并不一定指示地表植被的C3/C4比例变化,甚至也不一定指示乔、灌、草的比例,当然也不仅仅是植被覆盖变化的简单体现。总之,生物量效应在横向上是存在的,它至少部分控制着洞穴化学次生沉积物碳同位素的变化,在对石笋等碳同位素的高分辨率解译过程中是不容忽视的。其机理可能是,生物量的大小控制土壤性质(营养和含水量等),进而激发或抑制土壤微生物群落的生长和发育,从而影响土壤有机质的分解过程最终导致次生沉积物δ13C值的变化。 2. 贵州喀斯特地区δ13CSOC与源植物的δ13C差值最大达8‰以上,其主要受土壤水热条件、质地和pH值控制。由此可见,δ13CSOC动态总体上反映了植被破坏历史。不过由于未进行具体年限测定,植被受破坏的具体时间未知。因此,今后除了需对SOC含量等问题进行系统的研究外,14C定年以及喀斯特地区更多土壤剖面等的工作也有待进一步开展。 3. 洞穴水在下渗过程中普遍发生了混合作用,致使从上(地表)到下(洞穴)δ13CDIC值变化幅度变小。除了QXD和JJD中δ13CDIC值偏重的滴水外,基岩对滴水碳同位素组成的影响都相对较小,而各洞穴中滴水(沉积物)等碳同位素组成与洞穴上覆植被等有关,是生态环境的真实记录。LFD中各种洞穴水δ13CDIC值之间基本上都达到或接近同位素平衡,且与洞穴系统的生态环境有很好的相关关系(非常显著的时间变化);QXD和JJD之间的洞穴水(除土壤水外)δ13CDIC动态极为相似,即同一洞穴同期不同滴水点滴水δ13CDIC存在很大差异,可能与上覆土壤受到严重破坏导致基岩贡献率相对较高有关,而其中的几个滴水与相应沉积物的同位素不平衡可能是沉积速率太慢或沉积间断所致;XND尽管土壤水与JJD的有相似的特征,但其洞穴滴水平均δ13CDIC之间基本一致且与相应沉积物接近同位素平衡。因此,4个洞穴中,LFD可能是最为适合进行高分辨率和短时间尺度(如季节甚至月份)研究的洞穴。另外,对于文中出现的滴水(上)δ13CDIC偏重于滴水(下)的现象以及土壤中水气平衡的影响因素等还有待今后进一步研究。 4. 研究的4个洞穴系统大气降雨尽管主要受东亚季风控制,但来源不完全一致,还不同程度地受西南夏季风等影响。LFD和QXD受东亚季风影响程度相对高于XND和JJD,西南季风的影响程度恰好相反。 5. 尽管地表蒸发作用对表层(10cm以上)土壤水δ18O有一定的控制作用,但是较深(如10cm以下)土壤水基本不受影响;同位素示踪结果显示,土壤水和洞穴滴水对大气降水均有响应,但响应时间不一,可能与上覆物质(植被、土壤和基岩等)结构构造等控制的水文学特征和有效大气降水量等有关;喀斯特土壤的高度异质性导致土壤水运移机制的不同,从而影响混合作用的过程,最终导致洞穴系统同期土壤水δ18O存在一定差异;雨水在下渗过程中的不同来源水混合作用,是不同类型水δ18O时间上变化幅度不同的主要原因;同一洞穴不同滴水δ18O之间的差异可能与水文学特征不同有关;水化学性质(如SIC)控制沉积物的沉积过程从而影响同位素平衡。 由此可见,利用研究的4个洞穴系统中洞穴次生化学沉积物中氧同位素恢复和重建古降水量的高分辨率短时间变化是可行的。但我们也应注意到,在利用洞穴次生化学沉积物恢复和重建古降水量之前有必要寻找合适的方法(如利用Hendy法则等)判断是否达到同位素平衡。不是所有点沉积物都真实地记录着滴水(大气降水)同位素信号的,尤其在QXD和JJD中,一半左右的滴水点沉积物没有达到同位素平衡。这些均显示出在高分辨率短时间尺度古气候研究中,了解沉积物的形成过程对于准确解译洞穴过去环境变化具有重要意义。
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We have developed a compiler for the lexically-scoped dialect of LISP known as SCHEME. The compiler knows relatively little about specific data manipulation primitives such as arithmetic operators, but concentrates on general issues of environment and control. Rather than having specialized knowledge about a large variety of control and environment constructs, the compiler handles only a small basis set which reflects the semantics of lambda-calculus. All of the traditional imperative constructs, such as sequencing, assignment, looping, GOTO, as well as many standard LISP constructs such as AND, OR, and COND, are expressed in macros in terms of the applicative basis set. A small number of optimization techniques, coupled with the treatment of function calls as GOTO statements, serve to produce code as good as that produced by more traditional compilers. The macro approach enables speedy implementation of new constructs as desired without sacrificing efficiency in the generated code. A fair amount of analysis is devoted to determining whether environments may be stack-allocated or must be heap-allocated. Heap-allocated environments are necessary in general because SCHEME (unlike Algol 60 and Algol 68, for example) allows procedures with free lexically scoped variables to be returned as the values of other procedures; the Algol stack-allocation environment strategy does not suffice. The methods used here indicate that a heap-allocating generalization of the "display" technique leads to an efficient implementation of such "upward funargs". Moreover, compile-time optimization and analysis can eliminate many "funargs" entirely, and so far fewer environment structures need be allocated at run time than might be expected. A subset of SCHEME (rather than triples, for example) serves as the representation intermediate between the optimized SCHEME code and the final output code; code is expressed in this subset in the so-called continuation-passing style. As a subset of SCHEME, it enjoys the same theoretical properties; one could even apply the same optimizer used on the input code to the intermediate code. However, the subset is so chosen that all temporary quantities are made manifest as variables, and no control stack is needed to evaluate it. As a result, this apparently applicative representation admits an imperative interpretation which permits easy transcription to final imperative machine code. These qualities suggest that an applicative language like SCHEME is a better candidate for an UNCOL than the more imperative candidates proposed to date.
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We study a resistively shunted semiconductor superlattice subject to a high-frequency electric field. Using a balance equation approach that incorporates the influence of the electric circuit, we determine numerically a range of amplitude and frequency of the ac field for which a dc bias and current are generated spontaneously and show that this region is likely accessible to current experiments. Our simulations reveal that the Bloch frequency corresponding to the spontaneous dc bias is approximately an integer multiple of the ac field frequency.
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We consider the motion of ballistic electrons within a superlattice miniband under the influence of an alternating electric field. We show that the interaction of electrons with the self-consistent electromagnetic field generated by the electron current may lead to the transition from regular to chaotic dynamics. We estimate the conditions for the experimental observation of this deterministic chaos and discuss the similarities of the superlattice system with the other condensed matter and quantum optical systems.
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We study the motion of electrons in a single miniband of a semiconductor superlattice driven by THz electric field polarized along the growth direction. We work in the semiclassical balance-equation model, including different elastic and inelastic scattering rates, and incorporating the self-consistent electric field generated by electron motion. We explore regions of complex dynamics, which can include chaotic behaviour and symmetry-breaking. We estimate the magnitudes of dc current and dc voltage that spontaneously appear in regions of broken-symmetry for parameters characteristic of modern semiconductor superlattices. This work complements PRL 80(1998)2669 [ cond-mat/9709026 ].
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We consider the motion of ballistic electrons in a miniband of a semiconductor superlattice (SSL) under the influence of an external, time-periodic electric field. We use the semi-classical balance-equation approach which incorporates elastic and inelastic scattering (as dissipation) and the self-consistent field generated by the electron motion. The coupling of electrons in the miniband to the self-consistent field produces a cooperative nonlinear oscillatory mode which, when interacting with the oscillatory external field and the intrinsic Bloch-type oscillatory mode, can lead to complicated dynamics, including dissipative chaos. For a range of values of the dissipation parameters we determine the regions in the amplitude-frequency plane of the external field in which chaos can occur. Our results suggest that for terahertz external fields of the amplitudes achieved by present-day free electron lasers, chaos may be observable in SSLs. We clarify the nature of this novel nonlinear dynamics in the superlattice-external field system by exploring analogies to the Dicke model of an ensemble of two-level atoms coupled with a resonant cavity field and to Josephson junctions.
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We consider the spontaneous creation of a dc voltage across a strongly coupled semiconductor superlattice subjected to THz radiation. We show that the dc voltage may be approximately proportional either to an integer or to a half- integer multiple of the frequency of the applied ac field, depending on the ratio of the characteristic scattering rates of conducting electrons. For the case of an ac field frequency less than the characteristic scattering rates, we demonstrate the generation of an unquantized dc voltage.
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We investigate numerically the ground state phase diagram of the one-dimensional extended Hubbard model, including an on--site interaction U and a nearest--neighbor interaction V. We focus on the ground state phases of the model in the V >> U region, where previous studies have suggested the possibility of dominant superconducting pairing fluctuations before the system phase separates at a critical value V=V_PS. Using quantum Monte Carlo methods on lattices much larger than in previous Lanczos diagonalization studies, we determine the boundary of phase separation, the Luttinger Liquid correlation exponent K_rho, and other correlation functions in this region. We find that phase separation occurs for V significantly smaller than previously reported. In addition, for negative U, we find that a uniform state re-enters from phase separation as the electron density is increased towards half filling. For V < V_PS, our results show that superconducting fluctuations are not dominant. The system behaves asymptotically as a Luttinger Liquid with K_rho < 1, but we also find strong low-energy (but gapped) charge-density fluctuations at a momentum not expected for a standard Luttinger Liquid.
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A quantum Monte Carlo algorithm is constructed starting from the standard perturbation expansion in the interaction representation. The resulting configuration space is strongly related to that of the Stochastic Series Expansion (SSE) method, which is based on a direct power series expansion of exp(-beta*H). Sampling procedures previously developed for the SSE method can therefore be used also in the interaction representation formulation. The new method is first tested on the S=1/2 Heisenberg chain. Then, as an application to a model of great current interest, a Heisenberg chain including phonon degrees of freedom is studied. Einstein phonons are coupled to the spins via a linear modulation of the nearest-neighbor exchange. The simulation algorithm is implemented in the phonon occupation number basis, without Hilbert space truncations, and is exact. Results are presented for the magnetic properties of the system in a wide temperature regime, including the T-->0 limit where the chain undergoes a spin-Peierls transition. Some aspects of the phonon dynamics are also discussed. The results suggest that the effects of dynamic phonons in spin-Peierls compounds such as GeCuO3 and NaV2O5 must be included in order to obtain a correct quantitative description of their magnetic properties, both above and below the dimerization temperature.
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We study experimentally and computationally the dynamics of granular flow during impacts where intruders strike a collection of disks from above. In the regime where granular force dynamics are much more rapid than the intruder motion, we find that the particle flow near the intruder is proportional to the instantaneous intruder speed; it is essentially constant when normalized by that speed. The granular flow is nearly divergence free and remains in balance with the intruder, despite the latter's rapid deceleration. Simulations indicate that this observation is insensitive to grain properties, which can be explained by the separation of time scales between intergrain force dynamics and intruder dynamics. Assuming there is a comparable separation of time scales, we expect that our results are applicable to a broad class of dynamic or transient granular flows. Our results suggest that descriptions of static-in-time granular flows might be extended or modified to describe these dynamic flows. Additionally, we find that accurate grain-grain interactions are not necessary to correctly capture the granular flow in this regime.
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Two-dimensional (2D) hopper flow of disks has been extensively studied. Here, we investigate hopper flow of ellipses with aspect ratio $\alpha = 2$, and we contrast that behavior to the flow of disks. We use a quasi-2D hopper containing photoelastic particles to obtain stress/force information. We simultaneously measure the particle motion and stress. We determine several properties, including discharge rates, jamming probabilities, and the number of particles in clogging arches. For both particle types, the size of the opening, $D$, relative to the size of particles, $\ell$ is an important dimensionless measure. The orientation of the ellipses plays an important role in flow rheology and clogging. The alignment of contacting ellipses enhances the probability of forming stable arches. This study offers insight for applications involving the flow of granular materials consisting of ellipsoidal shapes, and possibly other non-spherical shapes.
