Common Path Side Viewing Monolithic Ball Lens Probe for Optical Coherence Tomography
configurations which use separate sample and reference arms [3]. Use of fiber based interferometers with separate sample and reference arms impose several restrictive requirements on the system. First, the length of both fibers should be matched within less than a millimeter in order to detect interference between the two arms. Because it can be difficult to manufacture optical probes to this tolerance and also stretching and bending of the sample arm fiber alters the optical path, reference arm mirrors are typically mounted on a translation stage, which must be adjusted
A variety of lensless common path OCT probes have been described. A simple common path probe was demonstrated where the sample arm fiber was cleaved at 0 degrees for front viewing [5] and angled polished for side viewing [6]. In this design, the Fresnel reflection from the fiber-air interface was used as reference signal. Later, a gold coated fiber tip common path probe was reported which could be used within aqueous media [7]. These lensless probes had a small working distance and relatively poor resolution at distance from the probe due to beam divergence. A conical-
corresponding author: Guillermo Tearney, e-mail: gtearney@https://www.360docs.net/doc/8f9527700.html,
frustum-tip fiber common path probe [8] achieved an extended lateral resolution of the order of 4 microns but, as with the other lensless probes, the focus was predominantly near the distal tip of the probe.
Lensed common path probes have been investigated in order to better control the focal spot parameters and distance of the focus from the probe tip. Two such common path probes placed sapphire ball lens [9] and standard biconvex lenses [10] in front of the sample fiber. In these designs, the fiber-air interface acted as reference surface and the ball lens focused the light on the sample.
Another design based on a graded index (GRIN) fiber lens was proposed which included a SMF followed by glass spacer and a GRIN fiber section. The GRIN fiber-air interface acted as reference surface and the GRIN fiber comprised the focusing element. Using this design, common path, side viewing [11] and front viewing probes [12] were demonstrated. While GRIN fiber lens based common-path probes have provided excellent results, precise length control of multiple fiber elements is needed, making their fabrication challenging.
Ball lens based probes however are relatively easy to fabricate and characterize [13]. These probes can be easily modeled with standard optical simulation software and the design can be replicated in the lab with performance close to the simulated design. Any standard spherical ball lens will have Fresnel reflection from the glass-air interface which can be used as a common-path reference signal. In this paper, we describe a side viewing common path ball lens design. Our ball lens design is different from previously reported ball lens probes [9] in the way that our ball lens is fabricated directly on the fiber tip, making it a monolithic optical element. In addition, the reference surface in our design is placed at exit face of the ball lens. The monolithic common path ball lens probe is therefore easy to fabricate and does not suffer from alignment issues.
The purpose of this study was to investigate a monolithic ball lens probe design for common path optical coherence tomography. Specifically, we aimed to investigate the effect of refractive index and diameter of the ball lens on the reference power and focal spot size while maintaining a fixed focal distance from the ball lens tip.
Materials and Methods
OCT system.In this work we used a spectral domain OCT system. The layout of the system is shown in Figure 1.
A superluminescent diode (SLD, D-1300 HP, Superlum, Ireland) with full width half maxima (FWHM) of 50 nm around central wavelength of 1320 nm was used as light source. The output from the SLD was fed to a Booster Optical Amplifier (BOA 1130S, Thorlabs, Inc., USA) and amplified to 25 mW. The output signal from the BOA was sent to a broadband circulator (CIRC-3-31-PB, Gould Fiber Optics, USA), which was further connected to a custom-made rotary junction. Our common path probe was attached to the output port of the rotary junction. The signal collected from the probe was sent to a custom designed spectrometer (COBRA 1310, Wasatch Photonics, Inc., USA) which consisted of transmission grating (1200 lines per mm), focusing lens (f=80 mm) and InGaAs line scan camera (GL-2048-L, Sensors Unlimited, Inc., USA) with 2048 pixels. The data from the spectrometer was digitized using frame grabber (KBN-PCE-CL4-F, BitFlow, Inc., USA) over a camera link cable at line scan speed of 70 kHz. The collected data was processed using a custom designed LabVIEW (National Instruments, USA) program.
Probe design.The probe consisted of a single mode fiber (SMF-28e, Corning Inc., USA) which was connected to the custom designed rotary junction via fiber connector (E2000, Diamond USA Inc., USA). At the end of the fiber, a 125 μm diameter coreless fiber with refractive index 1.44 at 1320 nm (FG125LA, Thorlabs, Inc., USA) was spliced and molded into a ball lens using laser splicer (LZM-100, Fujikura Ltd., Japan). The ball lens surface and air interface generated Fresnel reflection which was used as reference signal. In order to make it side viewing, a 500 μm prism (66-771, Edmund Optics Inc., USA) with an aluminum coated hypotenuse was used as a side reflector.
The use of a coated prism as the reflector is an important difference between our probe and a conventional side-viewing ball lens probe. In most side viewing, non common path ball lens probes [13], the ball lens is polished at an angle to achieve total internal reflection and redirect the light at an angle with respect to the axis of the fiber. For common path ball lens probes where the reference reflection emanates from the ball lens surface, some of the reference light may not satisfy the total internal reflection condition on its way back at the polished surface and would be lost. Furthermore, there will be losses in the reference signal if there is any spatial offset between the fiber axis and center of the polished surface. To combat these potential issues, it is better to either coat the polished surface of the ball lens or use a separate reflector to deflect the beam to the side, as implemented in our common-path probe design.
The fiber with the ball lens and prism were assembled within a hypotube (outer diameter = 1000 μm; inner diameter = 500 μm). An opening in the hypotube was created to allow the beam to exit from the side. The distal end of the probe can be seen in Figure 2.
Reference signal collection efficiency.The system was simulated using Zemax (Radiant Zemax, USA). The probe was designed to focus the beam at a distance of 2.5 mm from the ball lens tip. Since we used light reflected from ball lens surface as a reference signal, we simulated the fiber collection efficiency for the reference signal.
In order to measure the collection efficiency experimentally, we first measured the reflected signal from the illuminated probe alone. The ball lens was then dipped into index matching gel to remove Fresnel reflection from the ball lens surface. The difference in the signal measured before and after index matching gel dipping procedure was used to calculate the reference collection efficiency of the system.
Sensitivity of the system.For common path probes, sensitivity measurement is not as straightforward as measurement in non-common path systems. The standard procedure to measure sensitivity in non-common path systems involves a known reduction in the sample’s signal power [14]. The signal to noise ratio (SNR) of the system is then calculated with a mirror as the sample. The previous reduction in the sample power is doubled (because the attenuator is double-passed) and the SNR
is adjusted accordingly to obtain the system’s sensitivity. However in common path probes this method cannot be applied because sample and reference signals traverse the same fiber. Any reduction in the power will affect both the reference and the sample signals. To measure the sensitivity for our system, we first measured the maximum coupling to the probe from a mirror as the sample. The mirror was then misaligned until the power in the spectrometer arm reduced by a factor of 10–4 of its initial value, which is equivalent to a 40 dB reduction in sensitivity. At this point, the SNR of the system was measured and 40 dB was added to obtain the sensitivity of our system.
Imaging.The developed probe was attached to a rotary junction and images of the finger were acquired at 70 kHz line rate. Each A-scan consisted of 1024 pixels equivalent to a distance of 5.69 mm in air.
Results. The collection efficiency of the reference signal for SMF-28e fiber with numerical aperture 0.09 (0.13 in air) and focus at 2.5 mm from ball lens surface was simulated using Zemax and is listed in the Table. From the simulations we see that the collection efficiency increases as the size of the ball lens decreases (while maintaining the focus at 2.5 mm from ball lens tip). But this increase comes at the cost of reduced resolution. We also simulated the theoretical sensitivity for our system using the approach developed by Leitgeb et al. [14]. The simulated sensitivity is shown in Figure 3. The maximum sensitivity that we can achieve with our system is close to 107 dB for a ball lens diameter of 100 μm and a refractive index of 1.44. However, the focused spot size increases to 169 μm for a 100 μm ball len focused at 2.5 mm. For this work, we chose to use a ball lens of diameter 240 μm which provides a focal spot that is less than 50 μm while maintaining a sensitivity that is higher than 100 dB. The simulated collection efficiency for this ball lens was 0.0056%. The collection efficiency of our designed ball lens was measured using the method described in previous section and was found to be 0.0050%, which is close to the simulated value. With an input power of 25 mW, we achieved 1.25 μW of reference power from the ball lens surface. The maximum theoretical sensitivity at 1.25 μW reference power was estimated to be 102 dB. Experimentally, we achieved sensitivity of 100.5 dB for our designed ball lens probe which is within 2 dB of the maximum sensitivity achievable at this (1.25 μW) reference power and within 7 dB of that achievable with optimal reference power.
The axial resolution of the system was measured with a mirror as the sample and was found to be 15.6 μm (FWHM), which is close to the theoretical value of 15.3 μm. The lateral
Figure 1.Light from super luminescent
diode (SLD) is coupled to a circulator
which directs the light towards the rotary
junction (RJ) in the sample arm. The probe
is attached to the output end of the RJ. The
inset shows the distal end of the probe,
which consists of ball lens and aluminum
coated prism, assembled within a 1 mm
diameter hypotube. The orange color
represents the focused beam on the sample
and the red color represents the reference
signal reflected from the ball lens surface.
The reflected signal from the reference and
sample are sent through the circulator to the
spectrometer which consists of a collimator
(C), grating, lens and linear camera
Figure 2. Picture of the distal end of the probe. The common-path optics were assembled in a 1mm outer diameter and 0.5mm inner diameter hypotube. The signal from the ball lens was deflected to the side using an aluminum coated prism which was glued to the base of the hypotube. An opening was created in the hypotube by mechanical polishing for the beam to exit from the side
Figure 3. Simulated sensitivity with change in the reference power. To measure the sensitivity, effect of shot noise, random
intensity noise (RIN) and thermal noise was considered
The table lists the change in spot size, coupling efficiency and sensitivity
with change in ball lens size. The simulations were performed at 1320 nm wavelength
for a SMF fiber with 0.13 numerical aperture in air and 9.2 μm mode field diameter Figure 4. Image of the volar aspect of an index finger acquired by scanning the monolithic common path ball lens probe. Skin layers such as stratum corneum, epidermis and dermis are clearly visible. Sweat ducts are marked by arrows in the image
resolution of the system was measured using CCD beam profiler (DataRay). The FWHM of the focused beam at a distance of 2.5 mm from the ball lens surface was 49 μm and closely matched to the Zemax simulation results.
An image of the volar aspect of an index finger is shown in Figure 4. In this image we can see different layers of the skin such as stratum corneum, epidermis and dermis up to a penetration depth of 1.5 mm. One can also notice the presence of sweat ducts traversing the epidermis of the skin.
Discussion and Conclusion. In this work we have demonstrated a monolithic ball lens common path probe for OCT imaging. The ball lens probe is easy to fabricate using a laser splicer. The reference power from the ball lens’ surface can be increased by decreasing the ball lens diameter to tailor the sensitivity of the system; however, decreasing the ball lens’ diameter while maintaining the focal distance compromises the resolution of the system. A fixed focal distance from the ball lens tip requires smaller spacer length when the ball lens diameter is decreased, which limits the distance for the beam to expand. A smaller beam diameter at the ball lens reduces the numerical aperture of the ball lens and results in a larger focal spot. We found that with the appropriate selection of parameters, including spacer and ball lens diameter, one can achieve close to shot noise limited common path detection for spectral domain OCT. A further advantage of our probe is that it is monolithic, potentially making it less vulnerable to breakage during clinical application.
An alternative method for increasing the reference power from the ball lens’ surface would be to use a higher refractive index material to fabricate the ball lens. For instance, for the same focal spot size of 46 μm at 2.5 mm from the fiber tip and 25 mW input power, the simulated reference power is 1.40 μW for fused silica (n=1.44) ball lens, 2.4 μW for N-BK7 (n=1.50) ball lens and 16.75 μW for S-LAH64 (n=1.76) ball
lens at 1320 nm. The increase in reference power is primarily because of two reasons, first, higher refractive index gives larger Fresnel reflection at the ball lens air boundary and secondly, reference coupling efficiency is better for ball lenses with higher refractive indices.
Based on these features and the capability of common path probes to provide a simpler solution for OCT, we believe that this development will be an enhancement for certain types of catheter and needle-based OCT systems.Study Funding. Fonds de recherche du Qu ébec–Sant é (Postdoctoral fellowship, K. Singh); Canon USA, Inc., USA.Conflict of Interests. Dr. Tearney receives sponsored research funding from Canon USA, Inc. Drs. Tearney and Singh have written patents that are licensed to Canon USA, Inc. Drs. Tearney and Singh have the rights to receive royalties as part of this licensing arrangement. Mr. yamada is an employee of Canon USA, Inc.References
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6.7.8.9.10.11.12.13.14.
美国宏观经济指标解析
美国宏观经济指标解析 国内生产总值(Gross Domestic Product,GDP) 定义:用以衡量全国国内财货与服务产值的经济活动总金额。分为实际GDP 与名义GDP,实际GDP是名义GDP中除去物价变动因素后所得到的。 制作方式:从生产方衡量GDP的制作方式为:GDP=C+I+G+(X-M) 即:GDP = 消费商品与服务支出(C)+ 投资品支出(I)+ 政府商品与服务支出(G)+ 净出口 [ 出口(X) - 进口(M)] 发布时间:GDP 是季度数据,美国商业部的经济分析局(BEA)每月以初次估计和随后两次的修正形式公布这一信息。第一季度的GDP 先期报告即初次估计公布于四月底,其余各季度的数据公布依次类推至七月、十一月和隔年一月。第一次修正报告被称为初步,一般于该季度末后两个月公布,第二次修正报告被称为修正后或最终, 一般在初步估计后三个月公布。 数据解读:GDP指标是探讨经济基本面的情况用以分析经济发展目前是处于何种状态。GDP增速加快表明经济处于扩张阶段,对生产资料的消费需求会增加。市场一般会认为强劲的GDP增长表明经济的高速发展,预示着通货膨胀或者Fed 要实施紧缩的货币政策,利率上升、债券利率下跌;GDP增长低或为负值时,表明经济活动停滞或完全衰退,利率下降、债券利率上升。在与市场的期待值相提并论时,实际发布的经济成长率或者衰退率经常左右金融市场的走势。 网址:https://www.360docs.net/doc/8f9527700.html, 消费者物价指数(Consumer Price Index,CPI) 定义:以与居民生活有关的产品及劳务价格统计出来的物价变动指针,用以衡量城市消费者与工资收入者购买的一定数量与质量的商品与服务价格的变化,也能衡量同样一组财物货物及服务的成本变化,内容包括食物、能源、衣物、住屋、交通、医疗及教育等。 制作方式:劳工部(Labor Department)以与居民生活有关的产品及劳务价格统计出来的物价变动指针。目前美国的消费者物价指数是以1982年至1984年的平均物价水准为基期,涵盖了房屋支出、食品、交通、医疗、成衣、娱乐、其它等七大类,364种项目的物价来决定各种支出的权数,服务份额约占57%,
交易开拓者止损止盈
TB源码: Params Numeric Length1(10); // 短均线周期 Numeric Length2(20); // 长均线周期 Numeric InitialStop(20); // 初始止损比例*1000 Numeric BreakEvenStop(30); // 保本止损比例*1000 Numeric TrailingStop(50); // 追踪止损比例*1000 Numeric Lots(1); // 头寸大小 Vars NumericSeries MA1; NumericSeries MA2; BoolSeries condBuy(false); // 做多条件 BoolSeries condSell(false); // 做空条件 Numeric MinPoint; Numeric MyPrice; NumericSeries LowerAfterEntry; // 空头盈利峰值价 BoolSeries bShortStoped(false); // 当前均线空头趋势下是否有过一次进场Numeric StopLine(0); Begin // 把上一根bar的出场状况传递过来 if (BarStatus > 0) { bShortStoped = bShortStoped[1]; } Commentary("bShortStoped="+IIFString(bShortStoped,"true","false")); // 传递或比较盈利峰值价 If(BarsSinceEntry >= 1) { LowerAfterEntry = Min(LowerAfterEntry[1],Low[1]); } Else { LowerAfterEntry = LowerAfterEntry[1]; } Commentary("LowerAfterEntry="+Text(LowerAfterEntry)); // 过滤集合竞价 If((BarType==1 or BarType==2) && date!=date[1] && high==low) return; If(BarType==0 && CurrentTime<=0.09 && high==low) return; MinPoint = MinMove * PriceScale; MA1 = AverageFC(Close,Length1); MA2 = AverageFC(Close,Length2); PlotNumeric("MA1",MA1); PlotNumeric("MA2",MA2);
美国电影60-70年代赏析
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交易开拓者函数一览表文华对照)
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中美宏观经济指数比较.综述
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美国旅游签证(面签)常见问题解答
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专题报告:美国宏观经济分析介绍
專題報告: 專題報告:美國宏觀經濟分析
摘要: 摘要:
15/08/2013
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美国签证面试问题及答案
美国签证面试问题及答案 1. Why do you want to study in USA? Why do you choose USA? (Have you applied for Chinese University? Why?) 1) As you see, American education is famous in the world, especially the course of economy management. United States is the mother country of business. So USA Universities’ courses are of course in line with the modern financial trends and practices. 2) Moreover, the RMB appreciate day by day so studying in USA is cheaper than ever before. 3) It’s said that the USA authority welcom#e the Chinese students. That releases the local economic crisis. Why do you choose US but not Europe? Although banks were founded in Europe first, the US economic development is more mature and dynamic. Also, the United States is China's largest trading nation and US have com#pletely economic system. I believe I have made a very wise choice. (I have considered but finally choose the USA with an in-depth consideration.) 2. To how many institutions have you applied, and who are they? Any other school admits you? I applied two universities, *** University and University of North Alabama. Both of them admitted me. But I found the *** University MBA***** program aligns most closely with my academic background and career goals. I carry University of *** admission letter. Here it is. 3. Why do you choose *** University? 1)Well, at the first, *** University is a public institution that was founded in 1887 with long his***. 2)Secondly, my special option IED is rare but excellent in *** and ***’s MBA program is accredited by (ACBSP) (the Association of collegiate business schools and programs). 3)Also, *** offers me conditional admission, so it is advisable for me to choose *** to improve myself and English proficiency. 4)Moreover, Sorrell College of Business focuses on training students with practical skills and business problems solving ability. 4. Do you know where this school is? Do you know where you will study in the US? It is located in 601 University Avenue, ***, Alabama. 5. What is your major? What is it all about? What is it for?
宏观经济数据有哪些指标
国内生产总值(GDP): 是某一国在一定时期其境内生产的全部最终产品和服务的总值。反映一个国家总体经济形势的好坏,与经济增长密切相关,被大多数西方经济学家视为“最富有综合性的经济动态指标”。主要由消费、私人投资、政府支出、净出口额四部分组成。数据稳定增长,表明经济蓬勃发展,国民收入增加,有利于美圆汇率;反之,则利淡。一般情况下,如果GDP连续两个季度下降,则被视为衰退。此数据每季度由美国商务部进行统计,分为初值、修正值、终值。一般在每季度末的某日北京时间21:30公布前一个季度的终值。 工业生产(INDUSTRIAL PRODUCTION): 某国工业生产部门在一定时间内生产的全部工业产品的总价值。在国内生产总值中占有很大比重。由于工业部门雇佣了大量工人,其变动对整个国民经济有着重大影响,与汇率呈正相关。尤其以制造业为代表。此数据由美联储统计并在每月15日左右晚间21:15或22;15发布。 失业率(UNEMPLOYMENT RATE): 经济发展的晴雨表,与经济周期密切相关。数据上升说明经济发展受阻,反之则看好。对于大多数西方国家来说,失业率在4%左右为正常水平,但如果超过9%,则说明经济处于衰退。此数据由美国劳工部编制,每月第一个周五21:30公布。 贸易赤字(TRADE DIFICIT): 国际间的贸易是构成经济活动的重要环节。当一国出口大于进口时称为贸易顺差;反之,称逆差。美国的贸易数据一直处于逆差状态,重点是在赤字的扩大或缩小。赤字扩大不利于美圆,反之则有利。此数据由美国商务部编制,每月中、下旬某日晚间21:30公布前一个月数字。 经常项目收支: 经常帐为一国收支表上的主要项目,内容记载一国与外国包括因为商品/劳务进出口、投资所得、其他商品与劳务所得以及片面转移等因素所产生的资金流出与流入的状况。如果为正数,为顺差,有利本国货币;反之,则不利于本国货币。此数据由美国商务部编制,每月中旬某日21:30公布。 资本帐收支: 主要描述一国的长、短期资本流动情况,包括长期资本、非流动性短期私人资本、特别提款权、误差与遗漏,以及流动性短期私人资本等项目。资本项目在金融日益国际化、自由化的今天,影响不亚于经常帐项目,金融市场对外开放程度越高,影响越大。其对汇率的影响的观察方法与经常帐基本相同。 利率(INTRESTRATE): 利率是借出资金的回报或使用资金的代价。一国利率的高低对货币汇率有着直接影响。高利率的货币由于回报率较高,则需求上升,汇率升值;反之,则贬值。美国的联邦基金利率由美联储的会议来决定。
美国签证常见问题汇总
基于美国旅游/商务签证常见问题,特别编辑一个常见问题解答,希望对各位有所帮助 一,基本签证问题 ●Q1- 我的护照有效期必须为多长时间才可以申请美国签证 要前往美国旅行,须持有有效期超出预定停留期至少六个月的有效护照。 ●Q2- 美国签证免签国家都有哪些? 安道尔 澳大利亚奥地利 比利时 文莱 捷克共和国丹麦 爱沙尼亚芬兰 法国 德国 希腊匈牙利 冰岛 爱尔兰 意大利 日本 拉脱维亚 列支敦士登 立陶宛 卢森堡 马耳他 摩纳哥 新西兰 挪威 葡萄牙 韩国 圣马力诺 新加坡 斯洛伐克 斯洛文尼亚 西班牙 瑞典 瑞士 台湾 荷兰 英国 成员国家/地区的公民如满足以下要求,则可以免签证去美国旅游或出差,并最多可停留90天。 ●Q3-是否所有非移民签证申请人都必须到大使馆或总领事馆进行面谈? 大部分申请人均需如此。仅有少数例外情况: 例如:14以下儿童或80岁以上老人 任何有资格使用代传递服务续签的申请人 ●Q4-我的护照已经到期,但是其中的美国签证仍然有效。我是否需要申请新的签证?不需要,如果您的签证仍然有效,则您可以使用新旧两本护照到美国旅行,前提是签证未损坏,且旅行主 要目的与签证类型相符(例如:如果主要旅行目的为旅游,则签证必须为旅游签证)。另外,两本护照 上的姓名与其他个人信息必须一致,且两本护照必须是同一国家签发的同一类型护照。
●Q5-我拥有双重公民身份。去美国旅行应该使用哪个护照? 如果您不具有美国国籍,则可使用任意国籍申请签证,但是需要在申请表上向大使馆或总领事馆写明您的全部国籍。美国公民(即使拥有双重国籍)出入美国必须使用美国护照 ●Q6-签证可否办理延期 美国签证有效期为一年,任何类型的签证都无法延期。您必须重新申请签证,或办理代传递(免面谈)业务 ●Q7- 如果我在美国停留期间签证过期,会有什么问题吗? 根据美国国土安全部官员在您入境时作出的决定,您可以按照I-94表(入境时填写)上注明的时间和条件在美国境内停留,即使签证过期也没有问题 二, 如遇到拒签,客人提出的问题解答 ●Q1- 怎么证明客人被拒签了(签证官会口头告知,但有个别申请者会询问) 在美国签证面试后如遇到拒签情况,客人的护照会被返回手中,并由使馆发给客人一张 “1 214(b)条款”的拒签信,拒签信内容无差别,具体拒签原因不会被告知,但可以通过询问签证官所提问题,进行分析 ●Q2-拒签信上的214(b)条款是指什么? 214(b)是美国《移民与归化法案》(INA)中的条款,其中规定: 所有外国人在申请签证时都将首先被假定具有移民倾向,除非他/她能使签证官确信其具有非移民资格。大多数情况下,签证官只需简单面谈并审查申请人提供的约束力证明材料,即可处理签证申请。拒签最常见的原因是,访客或学生签证申请人无法证明其在美国境外拥有没有理由放弃的居住权。申请人必须证明上述居住权的存在,表明他/她们具有必然的约束力,可迫使其在短期停留后离美回国。依据美国法律,申请人有责任提供此类证明 ●Q3-,.如果本次被拒签,近期还可否申请同种类型签证 可以,但需要重新缴纳签证费,如果申请人能重新提供在美国境外有牢固约束力的证明材料,签证官将予以酌情考虑。不过,对某些申请人而言,除非其个人生活、工作和经济状况发生重大改变,否则无论重新申请多少次,也不具备获得非移民签证的资格。