Recent advancements in the “water-window” microscopy with laser-plasma SXR source based on a double stream gas-puff target

• Autorzy: Wachulak P. W.

Identyfikatory

DOI

10.1515/oere-2016-0018

• Języki publikacji: EN

Abstrakty

EN

An overview of our recent developments, regarding “water−window” soft X−ray (SXR) microscopy based on a laser−plasma double stream gas puff target sources is presented. The work, presented herein, describes two approaches to SXR microscopy. The first one is a low spatial resolution, achromatic SXR microscopy, employing Wolter type−I objective. The second one is a nanometer spatial resolution SXR microscopy, with the use of a Fresnel zone plate objective, for imaging various objects with quasimonochromatic light, emitted from a double stream gas puff target based short wavelength source. The developments regarding both systems are presented, as well as the possible applications, for which the SXR microscope was already employed. Such compact, table−top size, laboratory type microscopy setups may be employed in the near future for complementary−like studies to other, often used, microscopy techniques.

Słowa kluczowe

EN

soft X-ray; water window; microscopy; Wolter optics; Fresnel zone plates; gas puff target; laser-produced plasma

• Wydawca: Stowarzyszenie Elektryków Polskich ; Polska Akademia Nauk ; Wojskowa Akademia Techniczna im. Jarosława Dąbrowskiego
• Czasopismo: Opto-Electronics Review
• Rocznik: 2016
• Tom: Vol. 24, No. 3
• Strony: 144--154
• Opis fizyczny: Bibliogr. 53 poz., il., wykr.

Twórcy

autor

Wachulak P. W.

• Institute of Optoelectronics, Military University of Technology, ul. gen. S. Kaliskiego 2, 00–908 Warsaw, Poland

Bibliografia

• 1. L.B. Da Silva, J.E. Trebes, R. Balhorn, S. Mrowka, E. Anderson, D.T. Attwood, T.W. Barbee Jr., J. Brase, M. Corzett, J. Gray, J.A. Koch, C. Lee, D. Kern, R.A. London, B.J. MacGowan, and D.L. Mathews, “X−ray Laser Microscopy with an Rat Sperm Nuclei”, Science 258, 269 (1992).
• 2. D.S. DiCicco, D. Kim, R. Rosser, and S. Suckewer, “First stage in the development of a soft−x−ray reflection imaging micro scope in the Schwarzschild configuration using a soft−x−ray laser at 18.2 nm”, Opt. Lett. 17, 2, 157–159 (1992).
• 3. L.B. Da Silva, J.E. Trebes, S. Mrowka, T.W. Barbee, Jr., J. Brase, J.A. Koch, R.A. London, B.J. MacGowan, D.L. Matthews, D. Minyard, G. Stone, T. Yorkey, E. Anderson, D.T. Attwood, and D. Kern, “Demonstration of x−ray microscopy with an x−ray laser operating near the carbon K edge”, Opt. Lett. 17, 10, 754–756 (1992).
• 4. M. Wieland, C. Spielmann, U. Kleineberg, T. Westerwalbesloh, U. Heinzmann, and T. Wilhein, “Toward time−resolved soft X−ray microscopy using pulsed fs−high−harmonic radiation”, Ultramicroscopy 102, 93 (2005).
• 5. M. Kishimoto, M. Tanaka, R. Tai, K. Sukegawa, M. Kado, N. Hasegawa, H. Tang, T. Kawachi, P. Lu, K. Nagashima, H. Daido, Y. Kato, K. Nagai, and H. Takenaka, “Development of soft X−ray microscopy System using X−ray laser in JAERI Kansai”, Journal de Physique IV 104, 141–144 (2003).
• 6. I.A. Artioukov, A.V. Vinogradov, V.E. Asadchikov, Y.S. Kasyanov, R.V. Serov, A.I. Fedorenko, V.V. Kondratenko, and S.A. Yulin, “Schwarzschild soft−x−ray microscope for imaging of nonradiating objects”, Opt. Lett. 20, 2451–2453 (1995).
• 7. G. Vaschenko, F. Brizuela, C. Brewer, M. Grisham, H. Mancini, C.S. Menoni, M.C. Marconi, J.J. Rocca, W. Chao, J.A. Liddle, E.H. Anderson, D.T. Attwood, A.V. Vinogradov, I.A. Artioukov, Y.P. Pershyn, and V.V. Kondratenko, “Nanoimaging with a compact extreme−ultraviolet laser”, Opt. Lett. 30, 16, 2095 (2005).
• 8. C.A. Brewer, F. Brizuela, P. Wachulak, D.H. Martz, W. Chao, E.H. Anderson, D.T. Attwood, A.V. Vinogradov, I.A. Artyukov, A.G. Ponomareko, V.V. Kondratenko, M.C. Marconi, J.J. Rocca, and C.S. Menoni, “Single−shot extreme ultraviolet laser imaging of nanostructures with wavelength resolution”. Opt. Lett. 33, 518, (2008), this article was also published in Virtual Journal for Biomedical Optics, 3, 4, (2008) and in Virtual Journal of Nanoscale Science & Technology, 17, 15, (2008).
• 9. P.W. Wachulak, C.A. Brewer, F. Brizuela, W. Chao, E. Anderson, R.A. Bartels, C.S. Menoni, J.J. Rocca, and M.C. Marconi, “Analysis of extreme ultraviolet microscopy images of patterned nanostructures based on a correlation method”, Journal of the Optical Society of America B, 25, B20, (2008), this article was also published in The Virtual Journal for Biomedical Optics, 3, 8, (2008).
• 10. G. Vaschenko, C. Brewer, F. Brizuela, Y. Wang, M.A. Larotonda, B.M. Luther, M.C. Marconi, J.J. Rocca, and C.S. Menoni, “Sub−38 nm resolution tabletop microscopy with 13 nm wavelength laser light”, Opt. Lett. 31, 9, 1214 (2006).
• 11. P.W. Wachulak, A. Bartnik, H. Fiedorowicz, T. Feigl, R. Jarocki, J. Kostecki, R. Rakowski, P. Rudawski, M. Sawicka, M. Szczurek, A. Szczurek, and Z. Zawadzki, „A compact, quasi−monochromatic laser−plasma EUV source based on a double−stream gas−puff target at 13.8 nm wavelength”, Appl. Phys. B 100, 3, 461–469, (2010).
• 12. P.W. Wachulak, A. Bartnik, and H. Fiedorowicz, “Sub−70 nm resolution tabletop microscopy at 13.8 nm using a compact laser−plasma EUV source”, Opt. Lett. 35, 14, 2337–2339 (2010).
• 13. P.W. Wachulak, A. Bartnik, H. Fiedorowicz, and J. Kostecki, “A 50nm spatial resolution EUV imaging−resolution dependence on object thickness and illumination bandwidth”, Opt. Express 19, 10, 9541–9550 (2011).
• 14. K.W. Kim, Y. Kwon, K.Y. Nam, J.H. Lim, K.G. Kim, K.S. Chon, B.H. Kim, D.E. Kim, J.G. Kim, B.N. Ahn, H.J. Shin, S. Rah, K.H. Kim, J.S. Chae, D.G. Gweon, D.W. Kang, S.H. Kang, J.Y. Min, K.S. Choi, S.E. Yoon, E.A. Kim, Y. Namba, and K.H. Yoon, “Compact soft x−ray transmission microscopy with sub−50 nm spatial resolution”, Physics in Medicine and Biology 51, N99−N107 (2006).
• 15. M. Berglund, L. Rymell, M. Peuker, T. Wilhein, and H.M. Hertz, “Compact water−window transmission X−ray microscopy”, Journal of Microscopy 197, 3, 268–273 (2000).
• 16. G.A. Johansson, A. Holmberg, H.M. Hertz, and M. Berglund, “Design and performance of a laser−plasma−based compact soft x−ray microscope”, Review of Scientific Instruments 73, 3, 1193 (2002).
• 17. M. Benk, K. Bergmann, D. Schäfer, and T. Wilhein, “Compact soft x−ray microscope using a gas−discharge light source”, Opt. Lett. 33, 20, 2359 (2008).
• 18. P.A.C. Takman, H. Stollberg, G.A. Johansson, A. Holmberg, M. Lindblom & H.M. Hertz, “High−resolution compact X−ray microscopy”, Journal of Microscopy 226, 2, 175–181 (2007).
• 19. H. Legall, G. Blobel, H. Stiel, W. Sandner, C. Seim, P. Takman, D.H. Martz, M. Selin, U. Vogt, H.M. Hertz, D. Esser, H. Sipma, J. Luttmann, M. Hofer, H.D. Hoffmann, S. Yulin, T. Feigl, S. Rehbein, P. Guttmann, G. Schneider, U. Wiesemann, M. Wirtz, and W. Diete, “Compact x−ray microscope for the water window based on a high brightness laser plasma source”, Opt. Express 20, 16, 18362 (2012).
• 20. D.H. Martz, M. Selin, O. von Hofsten, E. Fogelqvist, A. Holmberg, U. Vogt, H. Legall, G. Blobel, C. Seim, H. Stiel, and H.M. Hertz, “High average brightness water window source for short−exposure cryomicroscopy”, Opt. Lett. 37, 21, 4425 (2012).
• 21. H. Legall, H. Stiel, G. Blobel, C. Seim, J. Baumann, S. Yulin, D. Esser, M. Hofer, U. Wiesemann, M. Wirtz, G. Schneider, and H.M. Hertz, “A compact Laboratory Transmission X−ray Microscope for the water window”, J. Phys.: Conf. Ser. 463 012013 (2013).
• 22. M. Bertilson, O. von Hofsten, U. Vogt, A. Holmberg, and H.M. Hertz, “High−resolution computed tomography with a compact soft x−ray microscope”, Opt. Express 17, 13, 11057 (2009).
• 23. K. Murakami, T. Oshino, H. Nakamura, M. Ohtani, and H. Nagata, “Schwarzschild microscope for carbon K radiation”, Appl. Opt. 32, 34, 7057–7061 (1993).
• 24. W. Chao, J. Kim, S. Rekawa, P. Fischer, and E.H. Anderson, “Demonstration of 12 nm Resolution Fresnel Zone Plate Lens based Soft X−ray Microscopy”, Opt. Express 17, 20, 17669 (2009).
• 25. S. Rehbein, S. Heim, P. Guttmann, S. Werner, and G. Schneider, “Ultrahigh−Resolution Soft−X−Ray Microscopy with Zone Plates in High Orders of Diffraction”, Physical Review Letters 103, 110801 (2009).
• 26. B.L. Mesler, P. Fischer, W. Chao, E.H. Anderson, and D.H. Kim, “Soft X−ray imaging of spin dynamics at high spatial and temporal resolution”, J. Vac. Sci. Technol. B 25, 2598–2602 (2007).
• 27. P. Fischer, D. H. Kim, B.L. Mesler, W. Chao, E.H. Anderson, “Magnetic soft X−ray microscopy: Imaging spin dynamics at the nanoscale”, Journal of Magnetism and Magnetic Materials 310, 2, 2689–2692 (2007).
• 28. P. Fischer, D.H. Kim, W. Chao, J.A. Liddle, E.H. Anderson, and D.T. Attwood, “Soft X−ray microscopy of nanomagnetism”, Materials Today 9, 1–2, 26–33 (2006).
• 29. D.H. Kim, P. Fischer, W. Chao, E. Anderson, M.Y. Im, S.Ch. Shin, and S.B. Choe, “Magnetic soft x−ray microscopy at 15 nm resolution probing nanoscale local magnetic hysteresis”, J. Appl. Phys. 99, 08H303 (2006).
• 30. B. Nieman, D. Rudolph, and G. Schmahl, “Soft X−ray imaging zone plates with large zone numbers for microscopic and spectroscopic applications”, Opt. Commun. 12, 160–163 (1974).
• 31. B. Nieman, D. Rudolph, G. Schmahl, “X−ray microscopy with synchrotron radiation”, Appl. Opt. 15, 1883–1884 (1976).
• 32. G. Schneider, B. Riemann, P. Guttmann, D. Rudolph, G. Schmahl, “Cryo X−ray Microscopy”, Synchr. Rad. News 8, 19 (1995).
• 33. C. Jacobsen, S. Williams, E. Anderson, M.T. Browne, C.J. Buckley, D. Kern, J. Kirz, M. Rivers, and X. Zhang, “Diffraction−Limited Imaging in a Scanning Transmission X−ray Microscope”, Opt. Commun. 86, 351 (1991).
• 34. C. Jacobsen, J. Kirz, S. Williams, “Resolution in soft X−ray microscopes”, Ultramicroscopy 47, 55–79 (1992).
• 35. J. Kirz, C. Jacobsen, S. Lindaas, S. Williams, X. Zhang, E. Anderson, M. Howells, Soft X−ray Microscopy at the National Synchrotron Light Source, published in Synchrotron Radiation in the Biosciences, (Oxford Univ. Press, 1994), pp. 563.
• 36. G. Poletti, F. Orsini, D. Batani, “Study of Multicellular Living Organisms by SXCM (Soft X−Ray Contact Microscopy)”, Solid State Phenomena 107, 7–10 (2005).
• 37. A.C. Cefalas, P. Argitis, Z. Kollia, E. Sarantopoulou, T.W. Ford, A.D. Stead, A. Marranca, C.N. Danson, J. Knott, and D. Neely, Technical Report RAL−TR−98−007, TMR Large−Scale Facilities Access Programme, National Hellenic Research Foundation, Greece (1998).
• 38. G. Schneider, “Cryo X−ray microscopy with high spatial resolution in amplitude and phase contrast”, Ultramicroscopy 75, 85–104 (1998).
• 39. W. MeyerIlse, D. Hamamoto, A. Nair, S.A. Leličvre, G. Denbeaux, L. Johnson, A.L. Pearson, D. Yager, M.A. Legros, and C.A. Larabell, “High resolution protein localization using soft X−ray microscopy”, Journal of Microscopy 201, 3, 395–403 (2001).
• 40. J. Maser, A. Osanna, Y. Wang, C. Jacobsen, J. Kirz, S. Spector, B. Winn & D. Tennant, “Soft X−ray microscopy with a cryo scanning transmission X−ray microscope: I. Instrumentation, imaging and spectroscopy”, Journal of Microscopy 197, 1, 68–79 (2000).
• 41. H. Fiedorowicz, A. Bartnik, R. Jarocki, J. Kostecki, J. Krzywinski, J. Mikołajczyk, R. Rakowski, A. Szczurek, and M. Szczurek, „Compact laser plasma EUV source based on a gas puff target for metrology applications”, J. Alloys Compd. 401, 1–2, 99 (2005).
• 42. P.W. Wachulak, A. Bartnik, H. Fiedorowicz, P. Rudawski, R. Jarocki, J. Kostecki, and M. Szczurek, “Water window” compact, table−top laser plasma soft X−ray sources based on a gas puff target”, Nucl. Instr. Meth. B 268, 10, 1692–1700 (2010).
• 43. P.W. Wachulak, A. Bartnik, M. Skorupka, J. Kostecki, R. Jarocki, M. Szczurek, L. Wegrzynski, T. Fok and H. Fiedorowicz, “Water−window microscopy using a compact, laser−plasma SXR source based on a double−stream gas−puff target”, Appl. Phys. B 111, 2, 239–247 (2013).
• 44. P.W. Wachulak, A. Bartnik, L. Wegrzynski , J. Kostecki, R. Jarocki, T. Fok , M. Szczurek, and H. Fiedorowicz, “Sub 1−µm resolution “water−window” microscopy using a compact, laser−plasma SXR source based on a double stream gas−puff target”, Nucl. Instr. Meth. B 311, 42–46 (2013).
• 45. R.L. Kelly, “Atomic and Ionic Spectrum Lines below 2000 Angstroms: Hydrogen through Krypton”, J. Phys. Chem. Ref. Data 16, suppl. 1 (1987).
• 46. H. Wolter, “A Generalized Schwarschild Mirror Systems For Use at Glancing Incidence for X−ray Imaging”, Ann. Physik 10, 286 (1952).
• 47. J.M. Heck, D.T. Attwood, W. MeyeIlse, and E.H. Anderson, “Resolution determination in X−ray microscopy: an analysis of the effects of partial coherence and illumination spectrum”, J. X−Ray Sci. Technol. 8, 95–104 (1998).
• 48. D. Attwood, Soft X−Rays and Extreme Ultraviolet Radiation,Cambridge University, Cambridge, 1999.
• 49. P.W. Wachulak, A. Torrisi, A. Bartnik, D. Adjei, J. Kostecki, L. Wegrzynski, R. Jarocki, M. Szczurek, and H. Fiedorowicz, “Desktop water window microscope using a double−stream gas puff target source”, Appl. Phys. B 118, 573–578 (2015).
• 50. A. Torrisi, P. Wachulak, F. Nawaz, A. Bartnik, J. Kostecki, L. Wegrzynski, R. Jarocki, M. Szczurek, and H. Fiedorowicz, „Nanoscale imaging and optimization of a compact “water window” SXR microscope”, Proc. of SPIE 9510, 95100N− 95100N−11 (2015).
• 51. A. Torrisi, P. Wachulak, M. F. Nawaz, A. Bartnik, Ł. Węgrzyński, A. Jancarek, and H. Fiedorowicz, “Characterization and optimization of images acquired by a compact soft X−ray microscope based on a double stream gas−puff target source”, J. Instrumentation, accepted for publication (2016).
• 52. CXRO X−Ray Interactions With Matter website: http://henke. lbl.gov/optical_constants/.
• 53. P. Wachulak, A. Torrisi, M. F. Nawaz, A. Bartnik, D. Adjei, Š. Vondrová, J. Turňová, A. Jančarek, J. Limpouch, M. Vrbová, and H. Fiedorowicz, “A compact “Water Window” microscope with 60 nm spatial resolution for applications in biology and nanotechnology”, Microscopy and Microanalysis 21, 1214–1223 (2015).

Uwagi

PL

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.