|
|
|
| Calibration Method for Depth Measurement of Nano/microstructure in Scanning Probe Microscopy |
| LIU Jian1,GU Kang1,LI Meng-zhou2,YOU Xiao-yu1,LIU Chen-guang3,WANG Yu-hang3,TAN Jiu-bin2 |
1. Advanced Microscopy and Instrumentation Research Center, Harbin Institute of Technology, Harbin, Heilongjiang 150001, China
2. Center of Ultra-Precision Optoelectronic Instrument Engineering, Harbin Institute of Technology, Harbin, Heilongjiang 150001, China
3. Research Center of Basic Space Science, Harbin Institute of Technology,Harbin, Heilongjiang 150001, China |
|
|
|
|
Abstract Scanning probe microscopy (SPM) is an essential technology for three-dimensional measurement of nano/microstructure. However, there are uncertain profiles near step or groove sample edges, which bring about accuracy loss of depth measurement. In order to avoid the accuracy loss of depth measurement, two analytical models for mechanical probes and optical probes were established respectively, the coupling relationships among uncertain profiles, depth of samples, and shape of probes were depicted. Based on the above models, a calibration method for depth measurement with a promising accuracy was proposed. Compared with the existing international standard for depth measurement (W/3 rule), the proposed method provides a clear boundary to determine if the measurement results are valid. Furthermore, it can also guide the user to select the appropriate probe before performing measurements.
|
|
Received: 22 August 2018
Published: 10 June 2019
|
|
|
|
Corresponding Authors:
LIU Chen-guang (1988-), male, Liaocheng, Shandong Province, assistant researcher at Harbin Institute of Techn-ology, mainly engaged in ultraprecision optical microscopy research.
Email: cg.liu@hit.edu.cn
WANG Yu-hang (1986-), male, Daqing, Heilongjiang Province, assistant researcher at Harbin Institute of Technology, mainly engaged in optical stereoscopic microscopic imaging and metrology research.
Email: wangyuhanghit@hit.edu.cn
E-mail: wangyuhanghit@hit.edu.cn
|
| About author:: LIU Jian (1974-), male, Harbin, Heilongjiang Province, Professor of Har-bin Institute of Technology, mainly engaged in optical stereoscopic microsc-opic imaging and metrology, applied optical technology research.
Email: liujian@hit.edu.cn |
|
|
|
[1]Boccaccio A, Lamberti L, Papi M, et al. Effect of AFM probe geometry on visco-hyperelastic characterization of soft materials. [J]. Nanotechnology, 2015, 26(32): 325701.
[2]Cordes A, Bunday B D. Sidewall slope sensitivity of critical dimension atomic force microscopy [J]. Journal of Micro/ Nanolithography Mems & Moems, 2012, 11(1): 011011.
[3]Bosse J L, Huey B D. Error-corrected AFM: a simple and broadly applicable approach for substantially improving AFM image accuracy [J]. Nanotechnology, 2014, 25(15): 155704.
[4]Seah M P. Nanoscale roughness and bias in step height measurements by atomic force microscopy[J]. Measurement Science & Technology, 2013, 24(3): 035004.
[5]Charvátová Campbell A, Jelínek P, Klapetek P. Study of uncertainties of height measurements of monoatomic steps on Si 5×5using DFT [J]. Measurement Science & Technology, 2017, 28(3): 034005.
[6]Liu J, Liu C, Tan J, et al. Super-aperture metrology: overcoming a fundamental limit in imaging smooth highly curved surfaces[J]. J Microsc, 2016, 261(3): 300-306.
[7]Lim J, Jung M, Joo C, et al. Development of micro-objective lens array for large field-of-view multi-optical probe confocal microscopy [J]. Journal of Micromechanics & Microengineering, 2013, 23(6): 065028.
[8]Demming A. Scanning probe microscopy: a visionary development [J]. Nanotechnology, 2013, 24(29): 290201.
[9]Valdre G, Moro D. Scanning probe microscopy with vertically oriented cantilevers made easy[J]. Measurement Science & Technology, 2012, 23(8): 126103-126103-3.
[10]Ritter M. A landmark-based 3D calibration strategy for SPM [J]. Meas.sci.technol, 2007, 18(2): 404.
[11]ISO 5436-1:2000 (E) Geometrical product specifications (GPS)—Surface texture: Profile method; Measurement standards—Part 1: Material measures[S].
[12]Liu J, Li M, Li Q, et al. Decoupling criterion based on limited energy loss condition for groove measurement using optical scanning microscopes [J]. Measurement Science & Technology, 2016, 27(12):125014. |
|
|
|
2019, Vol. 40 
