d*****s 发帖数: 313 | 1 it worths the money. I think in China we are building one near
Shanghai, another near USTC. But they are not the newest generation
synchrotron sources.
FreeElectronLaser is also being designed and it is well believed
the first FEL facility will be built near 2010. It will cost a lot
more but also generates more photons and provides more flexibility
to the photon energy, thus will have more potential application. |
|
y***n 发帖数: 28 | 2 Physical Chemistry Postdoc Research Opportunity at Boston University
Xin Chen’s research group, newly-founded at Boston University, Department
of Chemistry in 2011, is seeking a postdoctoral researcher (or a visiting
scholar) with experience in ultrafast laser spectroscopy and nonlinear
optics. His/her major responsibility would be to set up and carry
experiments using a board-band vibrational sum-frequency spectrometer and
imaging system. Candidates experienced in nonlinear v... 阅读全帖 |
|
w********h 发帖数: 12367 | 3 Rank Full Journal Title Journal Impact Factor
1 CHEMICAL REVIEWS 45.661
2 NATURE MATERIALS 36.425
3 Nature Nanotechnology 33.265
4 CHEMICAL SOCIETY REVIEWS 30.425
5 PROGRESS IN MATERIALS SCIENCE 25.870
6 ACCOUNTS OF CHEMICAL RESEARCH 24.348
7 Nature Chemistry 23.297
8 Nano Today 18.432
9 Annual Review of Materials Research 15.629
10 Energy & Environmental Science 15.490
11 ADVANCED MATERIALS 15.409
12 Advanced Energy Mate... 阅读全帖 |
|
p***8 发帖数: 36 | 4 PhD and post-doc positions in Mechanical Engineering are immediately
available in the research group of Dr. Yi Wang at the University of South
Carolina-USC (Columbia/Main campus, https://www.sc.edu/study/colleges_
schools/engineering_and_computing/faculty-staff/yi_wang.php). USC is the
flagship university in the State of South Carolina, and the Ph.D. program at
the department of Mechanical Engineering is ranked No. 31 nationally by the
National Research Council (NRC) [1], and the College of Engi... 阅读全帖 |
|
s*****r 发帖数: 261 | 5 有个review,看是否有兴趣, 站内联系
Applied Technique of Focused Ion Beam Milling Based on Microstructure of
Photonic Bandgap Fiber
In this paper, a precision micromachining technique for photonic bandgap
fiber (PBGF) using focused ion beam (FIB) milling was reported. Types of
PBGF have the honeycomb structure with a hollow-core surrounded by
microstructured cladding, and the widths of the thin silica struts are only
10~100 nm. |
|
p***8 发帖数: 36 | 6 PhD and post-doc positions in Mechanical Engineering are immediately
available in the research group of Dr. Yi Wang at the University of South
Carolina-USC (Columbia/Main campus, https://www.sc.edu/study/colleges_
schools/engineering_and_computing/faculty-staff/yi_wang.php). USC is the
flagship university in the State of South Carolina, and the Ph.D. program at
the department of Mechanical Engineering is ranked No. 31 nationally by the
National Research Council (NRC) [1], and the College of Engi... 阅读全帖 |
|
l*********p 发帖数: 197 | 7 Use two photon absorption process to polymerize.
Usually the photoinitiator absorbs two photons to split into radicals, those
radicals start the polymerization process. |
|
s*******g 发帖数: 6 | 8 【 以下文字转载自 EE 讨论区 】
发信人: skipyoung (skipyoung), 信区: EE
标 题: Nano-Optics发展方向求建议
关键字: optics;工作
发信站: BBS 未名空间站 (Sun Feb 26 17:55:26 2012, 美东)
第一次在板上发帖。
我现在的情况:
在一个综排20,专排40左右的学校PhD一年级。因为本科学的光学还有其它各种原因目
前貌似跳到Nano-Optics方向这个就业火坑里了。
因为是第一年所以感觉research的小方向上还是有比较大的空间的。老板目前的课题大
概在plasmonics/metamaterial还有on-chip photonic interconnect上。
plasmonics/metamaterial这个方向目前的感觉是大家都在灌水,实在是看不到什么工
业界的应用,这个接着做下去基本就是postdoc争取faculty的路了,我实在也不想这样
,比较摧残人。
on-chip photonic interconnect的话倒是有看到intel/ibm/hp之类的大公司一直想在
发展,但是实在... 阅读全帖 |
|
l********6 发帖数: 39 | 9 Professor Zhong Lin Wang’s group at Georgia Tech has a postdoctoral opening
in the field of piezotronics and piezo-phototroncis. Due to the
polarization of ions in a crystal that has non-central symmetry in materials
such as the wurtzite structured ZnO, GaN and InN, a piezoelectric potential
(piezopotential) is created in the crystal by applying a stress. Owing to
the simultaneous possession of piezoelectricity and semiconductor properties
, the piezopotential created in the crystal has a strong... 阅读全帖 |
|
l******6 发帖数: 11 | 10 本人现为哈佛大学博士后,主要领域为纳米生物芯片(Nano biosensor)开发。涉及
Nano biosensor design and Nano-fabrication, biomarker detection, single
particle interaction, optical and confocal microscope, optical sensor
development, photonics device/sensor develop. 博士期间为生物学和大分子药物动
力学,涉及proteomics(MALDI-TOF,HPLC-MS), 草本药物有效成分提取,纯化,质
谱分析;细胞辐射及药物干扰蛋白组学研究,鼠,兔等动物药物代谢研究,病理学研究。
以上所述领域均有相关文章发表,一作文章8篇(包括Science Advances,Nano letter
, scientific report, ACS photonics,Optics express,Chemical Research in
Chinese Universities,ACTA CHIMICAL ... 阅读全帖 |
|
l******6 发帖数: 11 | 11 本人现为哈佛大学博士后,主要领域为纳米生物芯片(Nano biosensor)开发。涉及
Nano biosensor design and Nano-fabrication, biomarker detection, single
particle interaction, optical and confocal microscope, optical sensor
development, photonics device/sensor develop. 博士期间为生物学和大分子药物动
力学,涉及proteomics(MALDI-TOF,HPLC-MS), 草本药物有效成分提取,纯化,质
谱分析;细胞辐射及药物干扰蛋白组学研究,鼠,兔等动物药物代谢研究,病理学研究。
以上所述领域均有相关文章发表,一作文章8篇(包括Science Advances,Nano letter
, scientific report, ACS photonics,Optics express,Chemical Research in
Chinese Universities,ACTA CHIMICAL ... 阅读全帖 |
|
M*********m 发帖数: 2024 | 12 我们各自介绍一下自己的研究方向,如果以后有什么专门而又悬而未决的问题,我可以
把文章转入你的信箱,也可以增强互信,在这个网络空间得到一定的透明度。随着大家
逐渐在各个领域展露头角,如果需要协作,这也算是一个基础吧。
可以简单说说啊,比方什么凝聚态,高能,低温,材料,等等。呵呵,都发包子!
实验凝聚态:
pqinsheng: 实验凝聚态, LT-STM.
ansh: 实验凝聚态
Starcraft114: 实验凝聚态,STM, 磁性材料
Xyatoo: 实验凝聚态,硅量子点的光学特性
Chenxi17: 凝聚态,磁性物理
Ac: 氧化物磁性半导体的磁学和自旋相关输运
phasespace: 实验凝聚态物理
Zhane: 固体物理电特性?
Microsystem:高能物理转到凝聚态物理,半导体器件方向
Wokaowokao: 氮化物的合成
yaokent: 计算凝聚态物理
医学物理:
UMMS: 2005年转到Medical Physics,以前拿的是天体物理的Ph.D.,主要的方向是引力
波(Gravitational Wave),曾是LIGO的postdoc,最初做高能伽玛(TeV g... 阅读全帖 |
|
x**u 发帖数: 77 | 13 转载一下,懂行的筒子来评一下:
November 2007, to be published in Physical Review Letters
Demonstration of a compiled version of Shor's quantum factoring
algorithm using photonic qubits
Chao-Yang Lu, Daniel E. Browne, Tao Yang, and Jian-Wei Pan
We report an experimental demonstration of a complied version of Shor's
algorithm using four photonic qubits. We choose the simplest instance of
this algorithm, that is, factorization of $N=15$ in the case that the period
$r=2$ and exploit a simplified linear optical net |
|
m********8 发帖数: 123 | 14 that QED works fine for electrons but poor for photons is very interesting;
this might be due to the fact/theory that while electrons constitutes
regular matter, photons are the force carrier;
in other words, mankind has a big problem in calculation of forces, such as
the very basic ELECTRIC FORCE
. |
|
Y*****g 发帖数: 101 | 15 可惜那个编辑溜到Nature Photonics去了。所以我是Nature Photonics的关系户了,可
以方便在上面灌水。 |
|
e******e 发帖数: 81 | 16 我觉得wave packet的说法没谱。一个电子说是一个delta还行。
还有空间上怎么定义一个photon,一个photon多大(横轴,纵轴),这都是问题。 |
|
a*******s 发帖数: 1698 | 17 我理解是,如果一个photon的波长完全确定,动量完全确定,那么它的空间上就是完全
延展的平面波,没法讨论一个photon多大吧。但是可以通过在一个很小的动量范围内选
择平面波叠加,构成一个动量相对确定,空间展宽也相对确定的wave packet。 |
|
z*********7 发帖数: 372 | 18 Professor Malik Rakhmanov at UTB is looking for MS and PhD students to work on lasers, optics, electro-optic devices, optical interferometry,
precision phase measurements, photonic crystals, and photonic nanocavities.Full financial support will be provided to a qualified student.
Please contact Professor Rakhmanov at m*************[email protected] |
|
X******U 发帖数: 137 | 19 Photonic Crystal 其实就是photonic band gap material.
如果要实用,上prism,如果要fancy,上光子晶体。不过说句实在话现在PBG也没有那么
fancy了。
simulation+fabrication折腾那么久,一个光栅才多少钱啊。
波分复用。
.33-1.66微
米的,和1.66-2微米的三束光,这个可以叫波分复用吗?
受光面积可以很
大,请问光子晶体的受光面积可以和光栅一样大吗?觉得光栅用于波分复用时在转换效
率上接近100%,
(因为光栅只根据波长改变其传播方向,而不过滤光的能量),请问光子晶体是在某个
面积上是过滤某一
波长的光,还是像光栅一样只是改变其传播方向? |
|
y***n 发帖数: 28 | 20 Physical Chemistry Postdoc Research Opportunity at Boston University
Xin Chen’s research group, newly-founded at Boston University, Department
of Chemistry in 2011, is seeking a postdoctoral researcher (or a visiting
scholar) with experience in ultrafast laser spectroscopy and nonlinear
optics. His/her major responsibility would be to set up and carry
experiments using a board-band vibrational sum-frequency spectrometer and
imaging system. Candidates experienced in nonlinear v... 阅读全帖 |
|
L***6 发帖数: 8307 | 21 define 智商, can you define it? no, cuz humans are ignorant A holes. Humans
dont understand how their brains work, what thought is, its obviously all
just basically QED processes, when you think what happens is just massive
virtual photon exchanges. But how? what is a fucking photon? And the same
particle could be completely different from the observation conducted by
other species. so theres no ultimate explanation to anything from the humans
point of view, cuz humans are part of nature, coming ... 阅读全帖 |
|
k*******6 发帖数: 57 | 22 Several graduate research assistants (masters and Ph.D.s) and postdoctoral
research associates positions are now available at the Center for Photonics
Technology (CPT) at Virginia Tech, directed by Professor Anbo Wang.
CPT is one of the largest and well-reputed research centers for fiber optics
and sensing in the United States http://photonics.ece.vt.edu/. The engineering program of Virginia Tech is now ranked 24th by the US News http://grad-schools.usnews.rankingsandreviews.com/best-gradua... 阅读全帖 |
|
|
S*********k 发帖数: 507 | 24 From today's NY Times:
Tingye Li (厉鼎毅), Instrumental in the Laser’s Development, Dies at 81
Tingye Li, an electrical engineer whose calculations in the early 1960s
helped guide the development of the laser and propel the dizzying increase
in the speed of fiber-optic communication, died on Dec. 27 in Snowbird, Utah
. He was 81.
Family photo
Some of the work done by Dr. Tingye Li and his colleagues at Bell Labs laid
the groundwork for today’s broadband.
The cause was a heart attack while he was on... 阅读全帖 |
|
x******n 发帖数: 87 | 25 用lens基本上是common sense,一般不会画上去,就像上面collimator,polarizer,
half wave plate都没有画上去呀。除非laser太强(一般也不大可能,因为laser太强
首先会打坏bbo)。down conversion的efficiency基本上是10^-5 到10^-6这个级别。
你贴的link里面曝光的时间是一个钟头,根据曝光时间你可以算一下大概多少的photon
per second。也有可能他用很强的laser,不focus,产生很弱的down conversion,用
很长的曝光时间来collect足够多的photon。不过我极其怀疑,在那么低的efficiency
(说不定都小于10^-8)下他怎么去除背景noise。 |
|
v*******e 发帖数: 11604 | 26 找到一篇有意思的文章,
http://arxiv.org/pdf/quant-ph/0306154
“Spectroscopy by frequency entangled photon pairs”
也是BBO 晶体的type II SPDC。
关键是:仔细想想frequency entangled photons是什么意思,测到我是\omega_1,你
就是\omega_2;测到我是2你就是1;而且不是隐变量的,是测到的时候“坍缩”的;意
思是不是超光速传递能量(违反了狭义相对论)? |
|
h***j 发帖数: 258 | 27 【 以下文字转载自 EE 讨论区 】
发信人: hzdjj (杭州的姐姐), 信区: EE
标 题: Postdoc Position at Harbin Institute of Technology Shenzhen Graduate School
发信站: BBS 未名空间站 (Thu Aug 22 02:04:46 2013, 美东)
Post for friends. Do not reply the site mail.
1. Position Specification:
Postdoctoral fellows at HIT Shenzhen Graduate School play a crucial role in
research, teaching and learning activities across the entire academic
landscape.
Position Qualifications: Applicants should have a PhD degree from world-
class universities in m... 阅读全帖 |
|
f*******7 发帖数: 93 | 28 1. Journal of Optics Volume 20 Number 3
A Aspect et al 1989 J. Opt. 20 119
“Wave particle duality for a single photon”
A Aspect, P Grangier and G Roger
2. “Two-photon double-slit interference experiment”
C. K. Hong and T. G. Noh »View Author Affiliations
Journal of Optical Society of America B, Vol. 15, Issue 3, pp. 1192-1197 (
1998)
毕业,没有学校帐号了,万分感激~~~ ORZ
请发到 f****[email protected] |
|
z**********g 发帖数: 16 | 29 前言:中国大陆的庄一龙先生独创了斥力子理论,可以用来解释爱因斯坦未能解释的疑
难问题,目前已经得到国内科学界某些人的关注,有兴趣的科学界人士可以了解一下斥
力子的基本理论。
我是庄一龙的朋友,目前暂时在美国居住,受其委托,在本站发表他的文章,因为未名
网站在国内是被屏蔽的。
如果想进一步了解该理论,请在网上留言,我会和您联系的。
下面我把对这个理论的大致介绍发表在这里。
2010年12月)中国科学院《科技促进发展》杂志文章:
斥力子理论
撰文 张宇
上海科技管理干部学院庄一龙副教授所创立的“斥力子理论”是一种物理哲学理论,该
理论认为,地面的物体一旦动起来,不管方向如何,都具有一种挣脱地球引力的能力,
就好象物体吸收了一种对抗万有引力的物质。
该理论把普朗克能量子看作是一种具有对抗万有引力能力的实物粒子,称它为“斥力子
”,并认为物体运动状态的改变,就是由于吸收或释放斥力子造成的,作用力的过程是
实实在在的物质转移过程,通过斥力子的转移,斥力子所具有的质量、能量、动量就会
叠加到速度增加的物体上去,造成运动物体的相对性效应。反引力实物能量粒子的引入
,打破了物理学理论的“引力论”框架,... 阅读全帖 |
|
z**********g 发帖数: 16 | 30 Thesis about the relationship between electron charge
value and electron moving velocity
Yilong Zhuang*
Shanghai Institute of Science and Technology Administration
Jiading,Shanghai 201800
Abstract: “The value of charge has no changes”has not been proved,
but is admitted as a truth.Now that the electron mass can been changed with
it’s moving velocity,then electric charges,as the expression of the
substance’s nature,can be changed accordingly.Following this clue,th... 阅读全帖 |
|
l********6 发帖数: 39 | 31 Professor Zhong Lin Wang’s group at Georgia Tech has a postdoctoral opening
in the field of piezotronics and piezo-phototroncis. Due to the
polarization of ions in a crystal that has non-central symmetry in materials
such as the wurtzite structured ZnO, GaN and InN, a piezoelectric potential
(piezopotential) is created in the crystal by applying a stress. Owing to
the simultaneous possession of piezoelectricity and semiconductor properties
, the piezopotential created in the crystal has a strong... 阅读全帖 |
|
p***8 发帖数: 36 | 32 PhD and post-doc positions in Mechanical Engineering are immediately
available in the research group of Dr. Yi Wang at the University of South
Carolina-USC (Columbia/Main campus, https://www.sc.edu/study/colleges_
schools/engineering_and_computing/faculty-staff/yi_wang.php). USC is the
flagship university in the State of South Carolina, and the Ph.D. program at
the department of Mechanical Engineering is ranked No. 31 nationally by the
National Research Council (NRC) [1], and the College of Engi... 阅读全帖 |
|
c**********g 发帖数: 222 | 33
>>> it is proved that the freely expanding (adiabatic expansion)
photon field
will remain the balckbody spectrum and in thermal equilibrium as long
as it is
in equilibrium at the begining. You can try to prove it. it is fun.
>>>> yes, the photon energy is not conserved. The energy density drops
at the
rate of V^(-4/3) or (1+z)^4 or a^(-4). V is the considered volume. a
is the scale
factor. for the ideal fluid with p=w \rho. (w is a constant. \rho is
density and
p is pressure), then \rho drop |
|
f*******d 发帖数: 339 | 34
long
The photon field would keep its blackbody spectrum during
expansion of the Universe, but it is NOT in thermal
equilibrium! It has decoupled from matter since recombination. The
self-interaction of the photoes are also neglible.
sense.
photon
drops
no
etc.
I am not sure I understand your later statement. The cosmic virial
theorem
relates potential energy and peculiar velocity, but here he is talking
about uniform motion, there is no potential enengy and peculiar
velocity? |
|
c**********g 发帖数: 222 | 35
CMBR.
the
???
distance.
equivalent
I also think that you are wrong here. let's consider the photon's
equation.
c^2 dt^2=a^2 dr^2/(1-kr^2). here, k=-1,0,1. then c dt=a dr/Sqrt[1-k
r^2];
So, we know the meaning of c*(t_now-t_then). it is the PHYSICAL
distance that
the photon travel. But it is not either angular diameter distance,
comoving distance or luminosity distance. The reason is due to the a
or the
expansion of the universe. Because the universe is expanding, this d
i |
|
i*******n 发帖数: 166 | 36
It is not surprising since this special case has a higher symmetry.
The conservation of angular momentum of the photons makes it move
in the plane with the source and lens in this plane (there are infinite
planes satisfy this condition). If, however, the source,lens and observer
are not on one line, the three define a plane. What the observer receives
are photons traveling in this plane, the observer can see two images in this
plane from the two sides of the lens. If the three are on a line, |
|
s**e 发帖数: 103 | 37
he is among the first to recoganize light are made of photons and derived
the photon-electric (?) effect out of it. He was also a strong support of
De Brogile's matter-wave theory. He didn't like the intepretation of standard
QM and spend a lot of time to refute it, but failed. |
|
f*x 发帖数: 7 | 38 You mean, photonic bandgap (PBG)materials, right?
Just a couple of months ago, there was a very important breakthrough in
PBG device fabrication area. I feel this is an exciting area now, but still
a long way to go before jumping from lab into industry.
You can check out the research situation years ago through the website
http://www.neci.nj.nec.com/homepages/vlasov/photonic.html
Concerning these a couple of years, you should do a lot of literature search.
In University of Toronto, there is a to |
|
c***o 发帖数: 3 | 39
I only know the answer to your first question qualitatively.
There are band gaps produced by the periodicity of the
photonic crystals. So for a specified frequency, the light
can only propagate in some narrow direction, otherwise, the
frequency falls in the gap. Now you can control the flow of
light with this property.
You can find introductory materials about photonic crystals
in Joannoppolous's book. It's a very nice one. |
|
f***r 发帖数: 44 | 40 well, that means photonic crystal, a hot topic in these years.
see for example http://jdj.mit.edu/photons/index.html
But I dont understand what "10^12 Hz light generator" means.
10^12Hz is microwave, it shall be easily generated.
Since it declares 这种新装置为安全的人体透视检查、进行DNA分析
以及癌症诊断提供了新手段, I guess the original article means
X-rays. X-ray laser, which is a big deal. |
|
d*****r 发帖数: 4 | 41 Yes, light has both wave-like and particle-like properties. But you don't
need to calculate the rest mass of a photon, because it's always 0.:)
I never learned that the speed of photon becomes slower in a gravitational
field. Can you tell me which book you read?
About why light cannot escape from a black hole, it's a GR effect. It's
related to the curvature of spacetime in a gravitational field. Actually,
I am not understand it well. You can read some textbooks of GR. Also, there
is useful expla |
|
c*****s 发帖数: 97 | 42 http://onlinelibrary.wiley.com/doi/10.1002/(SICI)1097-
0029(19991101)47:3%3C165::AID-JEMT2%3E3.0.CO;2-D/abstract
Fundamental of two-photon microscopy
Osamu Nakamura
Microscopy Research and Technique
Special Issue: Two-Photon Excitation Microscopy
Volume 47, Issue 3, pages 165–171, 1 November 1999
my email: a*********[email protected]
3Q very much! |
|
f**d 发帖数: 768 | 43 这是一本计算神经科学的优秀著作,全文拷贝这里(图和公式缺),有兴趣的同学可以
阅读
如需要,我可以分享PDF文件(--仅供个人学习,无商业用途)
From Computer to Brain
William W. Lytton
From Computer to Brain
Foundations of Computational Neuroscience
Springer
William W. Lytton, M.D.
Associate Professor, State University of New York, Downstato, Brooklyn, NY
Visiting Associate Professor, University of Wisconsin, Madison
Visiting Associate Professor, Polytechnic University, Brooklyn, NY
Staff Neurologist., Kings County Hospital, Brooklyn, NY
In From Computer to Brain: ... 阅读全帖 |
|
d**********r 发帖数: 502 | 44 我的帐号下有LTE GSM 和 wimax photon,各收1分, 如何能去掉photon device? |
|
d**********r 发帖数: 502 | 45 同一account, 有LTE sim 和 Photon, 今天发现both被收了1分,Photon是wimax的,
早就没用了,如何除掉? |
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k**o 发帖数: 191 | 46 一直用Motorola Photon 4G (wimax) 在freedompop上。每次出去的时候导下航。数据
用得不多。最近,经常收到trueaccord的骚扰信,以为是spam也没在意。今天打开信看
了一下。说欠了freedompop $135 on 4/7/2017. 可是我一直用这个电话好好的,
freedompop也没有停这个机,或者提示欠费。因为用了citi的虚拟信用卡,限$35,如
果只是一次top up$15应该也够两次,可是这回,一下overage 7.03GB~ $135,肯定被
citi 拒付了。这也是我为什么一直不知道有这会事。然后我翻了下usage。觉得是不能
相信。14分钟用了7.03GB。Motorola Photon 4G 只能用sprint 的3G EVDO, 速度只有1
.2Mbps,7.03GB需要不停机用上12小时。下面是4/7/2017数据使用情况,大家给出出注
意:
4/7/17 11:25 PM Overage Used 183.37 KB
4/7/17 10:55 PM Overage Used 1.59 KB
4/7/17 10:40... 阅读全帖 |
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w*******y 发帖数: 60932 | 48 The original post:
Link:
http://www.ozbargain.com.au/node/63825
When I see this, it seems that there is only one day left (17th).
1.
30 Lumens Super Bright 9 LED Flashlight Lamp Camping Torch Head
Link:
http://www.tmart.com/30-Lumens-Super-Bright-9-LED-Flashlight-La
USD $0.99 MSRP: $1.99
Coupon code: 30LUMENS
For First 300 Orders
Features:
Lumen Output: 30 Lumens
Run Time: Approximately 40 hours on 3 AAA batteries
Power Supply: 3 x AAA alkaline battery
2.
White Photon Micro-Light LED Keychain F... 阅读全帖 |
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m*********k 发帖数: 10521 | 49 本次统计截止时间为:2013-12-11 01:00:00 (美东时间)
成功奖励 20 伪币的用户: aple, aTwosMam, babytoes, bookkoob, ChanelNan,
clearcrystal, cne0904, CNMOO, cowboyniu, crossfingers, dcbang, fedfan,
FoggyDew, fxz, garland, Godme, greent2008, iLoveYL, joymama, Kennethville,
KingOfLunHui, kk58, kongkong4750, maonvlang, miamiaxue, mifepristone, monjj,
NeoKing, oldhand, orangesky, paopao1997, pegasusii, photonics, powervolvo,
ppenney, rooroo, tevinshen, tnc, Vacation, vinhelp07, vtsing, whoknowsme,
yetaai, yinian, zhiyun
奖励版面:(... 阅读全帖 |
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