科学级全帧UV/VIS/NIR相机

可见光、全帧CCD相机 ELSE 4096 4096系列

公司介绍:成立于2008年的greateyes,是以德国柏林洪堡大学的技术为基础,迅速发展成为国际知名的先进探测器生产企业。如今,其科研与工业客户群体已遍布多个国家。greateyes开发、生产并销售高性能科学相机。其作为精确探测器,被广泛应用于成像与谱学应用领域。同时,greateyes公司也生产用于太阳能产业的电致荧光与光致荧光检测系统。 产品介绍:greateyes基于独特的平台概

  • 产地: 德国
  • 型号: ELSE 4096 4096 series
  • 品牌: Greateyes

公司介绍:

成立于2008年的greateyes,是以德国柏林洪堡大学的技术为基础,迅速发展成为国际知名的先进探测器生产企业。如今,其科研与工业客户群体已遍布多个国家。

greateyes开发、生产并销售高性能科学相机。其作为精确探测器,被广泛应用于成像与谱学应用领域。同时,greateyes公司也生产用于太阳能产业的电致荧光与光致荧光检测系统。

 

产品介绍:

greateyes基于独特的平台概念,提供用于紫外、可见和近红外的成像和光谱应用的大面阵相 机。深度冷却、高品质的CCD相机传感器具有超低噪声,可优化微弱信号的探测。采用不同 的像素模式、传感技术以及传感涂层使成像或光谱应用优化。

全帧CCD传感器集成在真空密闭腔室里,拥有多级半导体冷却以及单一光学窗口。相机提供丰 富的功能,例如灵活的像素联用操作、不同的触发和同步模式、可调的软件基线、传感器和散 热系统的温度监控。

 

主要特点:

  •  结构紧凑

  • 灵活的联用模式

  • 量子化效率高达98%

  • 满井容量高达700.000 eˉ

  • 深度制冷温度低至-90°C

  • 最小读出噪声低至3.5 eˉ

  • 18 bit 动态范围

  • 水冷和强制风冷



性能参数:


ELSE 4096 4096 FIELSE 4096 4096 BI BRELSE 4096 4096 BI MIDELSE 4096 4096 DD MU2
Image area61.4 mm × 61.4 mm61.4 mm × 61.4 mm61.4 mm × 61.4 mm61.4 mm × 61.4 mm
Pixel format4096 × 4096 pixels4096 × 4096 pixels4096 × 4096 pixels4096 × 4096 pixels
Pixel size15 µm × 15 µm15 µm × 15 µm15 µm × 15 µm15 µm × 15 µm
CCD sensor coolingMin. -90°C to 20°C,
forced air or liquid cooling
Min. -90°C to 20°C,
forced air or liquid cooling
Min. -90°C to 20°C,
forced air or liquid cooling
Min. -90°C to 20°C,
forced air or liquid cooling
GainHigh capacity: 1.2 counts/e-; Low noise: 0.4 counts/e-High capacity: 1.2 counts/e-; Low noise: 0.4 counts/e-High capacity: 1.2 counts/e-; Low noise: 0.4 counts/e-High capacity: 1.2 counts/e-; Low noise: 0.4 counts/e-
Data linkUSB 3.0, Gigabit EthernetUSB 3.0, Gigabit EthernetUSB 3.0, Gigabit EthernetUSB 3.0, Gigabit Ethernet
Distance flange - focal plane10 mm10 mm10 mm10 mm
CCD sensor typeFront-IlluminatedBack-IlluminatedBack-illuminatedBack-Illuminated, Deep-Depletion, Fringe-Suppression
Sensor coating-Broadband antireflectiveMidband antireflectiveMultiband antireflective
Full well capacityOutput node 900 k e-Output node 900k e-Output node 900k e-Output node 600 k e-
Dimensions
 (W × H × L)
13.7 cm (5.39ʺ) × 13.7 cm (5.39ʺ) × 17.1 cm (6.71ʺ)13.7 cm (5.39ʺ) × 13.7 cm (5.39ʺ) × 17.1 cm (6.71ʺ) 13.7 cm (5.39ʺ) × 13.7 cm (5.39ʺ) × 17.1 cm (6.71ʺ)13.7 cm (5.39ʺ) × 13.7 cm (5.39ʺ) × 17.1 cm (6.71ʺ)
Weight5 400 g5 400 g5 400 g5 400 g


QE曲线:

QE.jpg


典型应用:


  • 活体荧光生物成像

  • 天文观测

  • LIBS 光谱仪

  • 中子层析成像

  • EL / PL 成像

  • 超冷量子研究




德国GE-科学级、全帧CCD相机ELSE 4096 4096系列.pdf


文献:

1.  P. Wachulak, M. Duda, A. Bartnik, A. Sarzyński, Ł. Węgrzyński and H. Fiedorowicz, 2-D elemental mapping of an extreme ultraviolet-irradiated PET with a compact near edge X-ray fine structure spectromicroscopy, Spectrochimica Acta Part B: Atomic Spectroscopy, Volume 145, July 2018, Pages 107-114

2.  P. Wachulak, A. Bartnik and H. Fiedorowicz, Optical coherence tomography (OCT) with 2 nm axial resolution using a compact laser plasma soft X-ray source, Nature Scientific Reports, volume 8, Article number: 8494 (2018)

3.  P. Wachulak, M. Duda, A. Bartnik, A. Sarzyński, Ł. Węgrzyński, M. Nowak, A. Jancarek and H. Fiedorowicz, Compact system for near edge X-ray fine structure (NEXAFS) spectroscopy using a laser-plasma light source, Opt. Express 26, 8260-8274 (2018)

4.  A. Jonas, T. Meurer, B. Kanngießer and I. Mantouvalou, Reflection zone plates as highly resolving broadband optics for soft X-ray laboratory spectrometers, Review of Scientific Instruments 89, 026108 (2018)

5.  T. Pflug, J. Wang, M. Olbrich et al., Case study on the dynamics of ultrafast laser heating and ablation of gold thin films by ultrafast pump-probe reflectometry and ellipsometry, Appl. Phys. A (2018) 124: 116

6.  C. Buerhop, S. Wirsching, A. Bemm et al. Evolution of cell cracks in PV modules under field and laboratory conditions. Prog Photovolt Res Appl. 2018;26:261–272

7.  H. Stiel, J. Braenzel, A. Dehlinger, R. Jung, A. Luebcke, M. Regehly, S. Ritter, J. Tuemmler, M. Schnuerer and C. Seim, Soft x-ray nanoscale imaging using highly brilliant laboratory sources and new detector concepts, Proc. SPIE 10243, X-ray Lasers and Coherent X-ray Sources: Development and Applications, 1024309 (17 May 2017)

8.  M. F. Nawaz, M. Nevrkla, A. Jancarek, A. Torrisi, T. Parkman, J. Turnova, L. Stolcova, M. Vrbova, J. Limpouch, L. Pina and P. Wachulak, Table-top water-window soft X-ray microscope using a Z-pinching capillary discharge source, JINST, 2016, Vol. 11 PO7002

9.  I. Mantouvalou, K. Witte, W. Martyanov, A. Jonas, D. Grötzsch, C. Streeck, H. Löchel, I. Rudolph, A. Erko, H. Stiel and B. Kanngießer, Single shot near edge x-ray absorption fine structure spectroscopy in the laboratory, Appl. Phys. Lett. 108, 201106 (2016)

10.  S. Fazinić, I. Božičević Mihalić, T. Tadić, D. Cosic, M. Jakšić, D. Mudronja, Wavelength dispersive µPIXE setup for the ion microprobe, Nucl. Instr. Meth. Phys. Res. Sec. B, 2015, Vol. 363, pages 61-65   

11.  
A. Hafner, L. Anklamm, A. Firsov, A. Firsov, H. Löchel, A. Sokolov, R. Gubzhokov, and A. Erko, Reflection zone plate wavelength-dispersive spectrometer for ultra-light elements measurements, Opt. Express, 2015, Vol. 23, No. 23:29476-29483

12.  P. W. Wachulak, A. Torrisi, A. Bartnik, D. Adjei, J. Kostecki, L. Wegrzynski, R. Jarocki, M. Szczurek, H. Fiedorowicz, Desktop water window microscope using a double‑stream gas puff target source, Applied Physics B, 2015, 118:573–578

13.  I. Mantouvalou, K. Witte, D. Grötzsch, M. Neitzel, S. Günther, J. Baumann, R. Jung, H. Stiehl, B. Kanngießer, W. Sandner, High average power, highly brilliant laser-produced laser plasma source for soft X-ray spectroscopy, Review of Scientific Instruments, Vol. 86, Issue 3, 2015 

14.  T. Krähling, A. Michels,S. Geisler, S. Florek, J. Franzke, Investigations into Modeling and Further Estimation of Detection Limits of the Liquid Electrode Dielectric Barrier Discharge, Analytical Chemistry, 2014, 86(12), 5822-8


首页
产品
新闻
联系