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EUV/SXR/X-Ray科研級CCD相機

極紫外、軟X射線CCD相機-ALEX-i 成像系列

用于XUV/EUV/X射線能段的成像應用

  • 產地: 德國
  • 型號: ALEX-i 1k1k、ALEX-i 2k2k、ALEX-i 2k2k plus、ALEX-i 4k4k
  • 品牌: greateyes

產品介紹

出身于柏林的ALEX是德國greateyes公司最新研發(fā),應用于極紫外,真 空紫外和X射線能段的光譜及影像相機。ALEX集成了目前最前沿的低噪 聲電子系統(tǒng)和超低溫制冷技術,同時保持了緊湊小巧的設計。全新的設計 允許從50 kHz至5 MHz靈活地選擇所需讀出速度。18-bit 的模數(shù)轉換能 夠利用CCD傳感器的全動態(tài)范圍,以達到更好表現(xiàn)和更高的信噪比。為 匹配不同應用的需求,該相機包括多種類型的傳感器可供用戶選擇。同時 ALEX的低噪聲使之成為極弱信號條件下所需的理想相機,它將給您的 光譜學和影像研究帶來前所未有的可能性。

特征優(yōu)勢

◆ 制冷溫度低至-90℃;

◆ GigE & USB3.0 雙數(shù)據(jù)接口;

◆ 超高真空兼容,低至10-10mbar;

◆ 量子效率高達98%;

◆ 18 bit模數(shù)轉換

◆ 雙讀出頭,四讀出頭


規(guī)格參數(shù)

通用參數(shù)

讀出頻率

50 kHz,  250kHz, 1 MHz, 3 MHz(5 MHz 用于查看模式; 頻率可定制)

AD 轉換分辨率

18-bit

線性度

優(yōu)于 99%

CCD 外延層厚度

標準15 μm, 深耗盡類型40 μm

真空饋通法蘭

models IsO-F DN63,刀日封接 CF DN63,CF DN100,CF DN160

真空兼容性

刀口封接法蘭: 10-10 mbar (超高真空)

烘烤溫度

Max. +80 °C

法蘭距

1k1k camera with CF DN63: 6 mm; 2k2k with CF DN63: 5 mm;

2k2k plus & 4k4k cameras with CF DN160:-27 mm (all disctance can be customised

溫度監(jiān)控

于CCD 傳感器上,及半導體制冷的熱端

數(shù)據(jù)傳輸

千兆以太網(wǎng)GigE,USB3.0

軟件

greateyes Vision 軟件(Windows 7 / 10)

SDK 和驅動

DLL for Windows; LabVIEW, EPICS, Linux, Python以及Tango驅動 (可選)

TTL 接口信號

Sync out, shutter out, 2 external trigger in

工作條件

環(huán)境溫度: 0°C to 35°C ambient, 相對濕度<80% (無結露)

供電

1k1k & 2k2k: 80-264 VAC (115/230典型值), 47-63 Hz (50/60典型值), max. 1.1 A (230 V) / 1.9 A (115 V)

2k2k plus & 4k4k: 85-264 VAC (115/230典型值), 47-63 Hz (50/60典型值), max. 1.9 A (230 V) / 3.8 A (115 V)

認證

CE

尺寸

8.3 cm (3.27?) × 10.0 cm (3.94?) × 10.9 cm (4.29?) (W × H × L, 1k1k & 2k2k camera body)

13.7 cm (5.39?) × 13.7 cm (5.39?) × 13.3 cm (5.24?) (W × H × L, 2k2k plus & 4k4k camera body)

重量

2.9 kg (1k1k & 2k2k, CF DN63) / 4.3 kg (1k1k & 2k2k, CF DN 100) / 12.5kg (4k4k, CF DN160)

相機型號


ALEX-i 1k1k

ALEX-i  2k2k

ALEX-i  2k2k plus

ALEX-i 4k4k

芯片類型

FI

BI
BI UV1

BI DD

FI BI

BI DD

BI UV1

BI


BI

BI DD

BI UV1

像素規(guī)格(標稱)

1024 x 1024(FI)
1056 x 1027(others)

2048 x 2052

2048 x 2064

4096 x 4112

像素尺寸

13 μm × 13 μm

13.5 μm × 13.5 μm

15 μm × 15 μm

15 μm × 15 μm

滿井容量

100 keˉ

120 keˉ

100 keˉ

150 keˉ

150 keˉ

150 keˉ

350 keˉ

讀出噪聲典型值(eˉ)

@ 50 kHz
@ 1 MHz
@ 3 MHz


3.4
6.7
13.1


3.8
8.7
17.8


4.6
8.5
17.0


4.8
9.5
20.4


3.0
6.3
12.5

可調增益(counts/eˉ) Standard mode

High capacity mode


1
-


1
0.34


0.6
0.2


0.6
0.2


1
0.34

暗電流(eˉ/pixel/s)

@-100°C

0.00015     0.0005

@-90°C
0.0001       0.001

@-90°C

0.00008

@-90°C
0.00008         0.0006

芯片等級

Grade 0 or grade 1 (標準)

選擇法蘭類型

北京眾星聯(lián)恒科技有限公司

北京眾星聯(lián)恒科技有限公司

可選配件及軟件

北京眾星聯(lián)恒科技有限公司


典型應用

·  X 射線斷層成像

·  傅立葉變換全息圖

·  X 射線熒光透視成像

·  相干衍射成像(CDI)

·  電子疊層衍射(Ptychography)成像

·  掠入射小角 X 射線散射(GISAXS)


產品手冊

北京眾星聯(lián)恒科技有限公司GE_ALEX_i成像系列_datasheet 2021-5-12.pdf


文獻

1.      Loetzsch R, Beyer H F, Duval L, et al. Testing quantum electrodynamics in extreme fields using helium-like uranium[J]. Nature, 2024, 625(7996): 673-678.

2.      Ossiander M, Meretska M L, Hampel H K, et al. Extreme ultraviolet metalens by vacuum guiding[J]. Science, 2023, 380(6640): 59-63.

3.      Eller F, McNeill C R, Herzig E M. Tackling P3HT: Y‐Series Miscibility Through Advanced Processing for Tunable Aggregation[J]. Advanced Energy Materials, 2024, 14(29): 2304455.

4.      Sun T, Sun G, Yu F, et al. Soft X-ray ptychography chemical imaging of degradation in a composite surface-reconstructed Li-rich cathode[J]. ACS nano, 2020, 15(1): 1475-1485.

5.      Wen J J, Huang H, Lee S J, et al. Observation of two types of charge-density-wave orders in superconducting La2-x Sr x CuO4[J]. Nature Communications, 2019, 10(1): 3269.

6.      Rottke H, Engel R Y, Schick D, et al. Probing electron and hole colocalization by resonant four-wave mixing spectroscopy in the extreme ultraviolet[J]. Science advances, 2022, 8(20): eabn5127.

7.      Pan B Y, Jang H, Lee J S, et al.Intertwined spin and orbital density waves in MnP uncovered by resonant soft x-ray scattering[J]. Physical Review X, 2019, 9(2): 021055.

8.      Bothra U, Hui P, Tan W L, et al. Visualization of sub-nanometer scale multi-orientational ordering in thin films of polymer/non-fullerene acceptor blends[J]Journal of Materials Chemistry A, 2022, 10(46): 24662-24675.

9.      Schupp R, Torretti F, Meijer R A, et al. Efficient generation of extreme ultraviolet light from Nd: YAG-driven microdroplet-tin plasma[J]. Physical Review Applied, 2019, 12(1): 014010.

10.   Mantouvalou I, Witte K, Gr?tzsch D, et al. High average power, highly brilliant laser-produced plasma source for soft X-ray spectroscopy[J]. Review of Scientific Instruments, 2015, 86(3).

11.   Wachulak P W, Torrisi A, Bartnik A, et al. Desktop water window microscope using a double-stream gas puff target source[J]. Applied Physics B, 2015, 118: 573-578.


公司介紹

成立于2008年的greateyes,是以德國柏林洪堡大學的技術為基礎,迅速發(fā)展成為國際知名的先進探測器生產企業(yè)。如今,其科研與工業(yè)客戶群體已遍布多個國家。

greateyes開發(fā)、生產并銷售高性能科學相機。其作為精確探測器,被廣泛應用于成像與譜學應用領域。同時,greateyes公司也生產用于太陽能產業(yè)的電致熒光與光致熒光檢測系統(tǒng)。


型號參數(shù):



ALEX-i 1k1k

ALEX-i  2k2k

ALEX-i  2k2k plus

ALEX-i 4k4k

芯片類型

FI

BI
BI UV1

BI DD

FI BI

BI DD

BI UV1

BI


BI

BI DD

BI UV1

像素規(guī)格(標稱)

1024 x 1024(FI)
1056 x 1027(others)

2048 x 2052

2048 x 2064

4096 x 4112

像素尺寸

13 μm × 13 μm

13.5 μm × 13.5 μm

15 μm × 15 μm

15 μm × 15 μm

滿井容量

100 keˉ

120 keˉ

100 keˉ

150 keˉ

150 keˉ

150 keˉ

350 keˉ

讀出噪聲典型值(eˉ)

@ 50 kHz
@ 1 MHz
@ 3 MHz


3.4
6.7
13.1


3.8
8.7
17.8


4.6
8.5
17.0


4.8
9.5
20.4


3.0
6.3
12.5

可調增益(counts/eˉ) Standard mode

High capacity mode


1
-


1
0.34


0.6
0.2


0.6
0.2


1
0.34

暗電流(eˉ/pixel/s)

@-100°C

0.00015     0.0005

@-90°C
0.0001       0.001

@-90°C

0.00008

@-90°C
0.00008         0.0006

芯片等級

Grade 0 or grade 1 (標準)



·  X 射線斷層成像

·  傅立葉變換全息圖

·  X 射線熒光透視成像

·  相干衍射成像(CDI)

·  電子疊層衍射(Ptychography)成像

·  掠入射小角 X 射線散射(GISAXS)

北京眾星聯(lián)恒科技有限公司GE_ALEX_i成像系列_datasheet 2021-5-12.pdf


文獻:

1.  P. Wachulak, M. Duda, A. Bartnik, A. Sarzyński, ?. W?grzyński 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, ?. W?grzyński, 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. Kanngie?er 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. Gr?tzsch, C. Streeck, H. L?chel, I. Rudolph, A. Erko, H. Stiel and B. Kanngie?er, Single shot near edge x-ray absorption fine structure spectroscopy in the laboratory, Appl. Phys. Lett. 108, 201106 (2016)

10.  S. Fazini?, I. Bo?i?evi? Mihali?, T. Tadi?, D. Cosic, M. Jak?i?, 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. L?chel, 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. Gr?tzsch, M. Neitzel, S. Günther, J. Baumann, R. Jung, H. Stiehl, B. Kanngie?er, 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. Kra?hling, 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


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