MTK Engineering Mode - Android Apps on Google Play | engineering modeengineering mode
F. Gu, F. Xie, X. Lin, S. Linghu, W. Fang, H. Zeng, L. Tong, and S. Zhuang, “Single whispering-gallery-mode lasing in polymer canteen microresonators via spatial pump engineering,” Ablaze Sci. Appl. 6, e17061 (2017).[Crossref]
["490.82"]
MTK Engineering Mode - Android Apps on Google Play | engineering modeY. Wang, K. Zhang, S. Zhou, Y.-H. Wu, M.-B. Chi, and P. Hao, “Coupled-mode induced accuracy in a canteen whispering-gallery-mode resonator,” Opt. Lett. 41, 1825–1828 (2016).[Crossref]
Y. Yang, Y. Ooka, R. M. Thompson, J. M. Ward, and S. N. Chormaic, “Degenerate four-wave bond in a silica alveolate bottle-like microresonator,” Opt. Lett. 41, 575–578 (2016).[Crossref]
F. Liao, G. Wu, and F. Gu, “Hydrogen analysis based on Mach–Zehnder interferometer with palladium-coated microfiber,” J. Univ. Shanghai Sci. Technol. 38, 535–539 (2016).
X. Lin and W. Fang, “Localized high-Q modes in conical microcavities,” Opt. Commun. 381, 169–173 (2016).[Crossref]
X. F. Jiang, C. L. Zou, L. Wang, Q. H. Gong, and Y. F. Xiao, “Whispering-gallery microcavities with unidirectional laser emission,” Laser Photon. Rev. 10, 40–61 (2016).[Crossref]
S. Yang, Y. Wang, and H. Sun, “Advances and affairs for whispering arcade approach microcavities,” Adv. Opt. Mater. 3, 1136–1162 (2015).[Crossref]
F. Gu, L. Zhang, Y. Zhu, and H. Zeng, “Free-space coupling of nanoantennas and whispering-gallery microcavities with narrowed linewidth and added sensitivity,” Laser Photon. Rev. 9, 682–688 (2015).[Crossref]
V. D. Ta, R. Chen, and H. Sun, “Coupled polymer microfiber lasers for distinct approach operation and added refractive basis sensing,” Adv. Opt. Mater. 2, 220–225 (2014).[Crossref]
L. Chang, X. Jiang, S. Hua, C. Yang, J. Wen, L. Jiang, G. Li, G. Wang, and M. Xiao, “Parity-time agreement and capricious optical abreast in active-passive-coupled microresonators,” Nat. Photonics 8, 524–529 (2014).[Crossref]
H. Hodaei, M.-A. Miri, M. Heinrich, D. N. Christodoulides, and M. Khajavikhan, “Parity-time-symmetric microring lasers,” Science 346, 975–978 (2014).[Crossref]
J. Wang, T. Zhan, G. Huang, P. K. Chu, and Y. Mei, “Optical microcavities with tubular geometry: backdrop and applications,” Laser Photon. Rev. 8, 521–547 (2014).[Crossref]
L. He, S. K. Oezdemir, and L. Yang, “Whispering arcade microcavity lasers,” Laser Photon. Rev. 7, 60–82 (2013).[Crossref]
V. D. Ta, R. Chen, and H. D. Sun, “Tuning whispering arcade approach lasing from self-assembled polymer droplets,” Sci. Rep. 3, 1362 (2013).[Crossref]
T. Grossmann, T. Wienhold, U. Bog, T. Beck, C. Friedmann, H. Kalt, and T. Mappes, “Polymeric photonic atom super-mode lasers on silicon,” Ablaze Sci. Appl. 2, e82 (2013).[Crossref]
M. Sumetsky, “Delay of ablaze in an optical canteen resonator with nanoscale ambit variation: dispersionless, broadband, and low loss,” Phys. Rev. Lett. 111, 163901 (2013).[Crossref]
K. H. Kim, G. Bahl, W. Lee, J. Liu, M. Tomes, X. Fan, and T. Carmon, “Cavity optomechanics on a microfluidic resonator with baptize and adhesive liquids,” Ablaze Sci. Appl. 2, e110 (2013).[Crossref]
V. D. Ta, R. Chen, L. Ma, Y. J. Ying, and H. D. Sun, “Whispering arcade approach microlasers and refractive basis analysis based on distinct polymer fiber,” Laser Photon. Rev. 7, 133–139 (2013).[Crossref]
M. Ding, G. S. Murugan, G. Brambilla, and M. N. Zervas, “Whispering arcade approach alternative in optical canteen microresonators,” Appl. Phys. Lett. 100, 081108 (2012).[Crossref]
A. Chiasera, Y. Dumeige, P. Feron, M. Ferrari, Y. Jestin, G. N. Conti, S. Pelli, S. Soria, and G. C. Righini, “Spherical whispering-gallery-mode microresonators,” Laser Photon. Rev. 4, 457–482 (2010).[Crossref]
M. Poellinger, D. O’shea, F. Warken, and A. Rauschenbeutel, “Ultrahigh-Q tunable whispering-gallery-mode microresonator,” Phys. Rev. Lett. 103, 053901 (2009).[Crossref]
G. S. Murugan, J. S. Wilkinson, and M. N. Zervas, “Selective action of whispering arcade modes in a atypical canteen microresonator,” Opt. Express 17, 11916–11925 (2009).[Crossref]
F. Gu, L. Zhang, X. Yin, and L. Tong, “Polymer single-nanowire optical sensors,” Nano Lett. 8, 2757–2761 (2008).[Crossref]
C. Strelow, H. Rehberg, C. M. Schultz, H. Welsch, C. Heyn, D. Heitmann, and T. Kipp, “Optical microcavities formed by semiconductor microtubes application a bottlelike geometry,” Phys. Rev. Lett. 101, 127403 (2008).[Crossref]
F. Vollmer and S. Arnold, “Whispering-gallery-mode biosensing: label-free apprehension bottomward to distinct molecules,” Nat. Methods 5, 591–596 (2008).[Crossref]
L. Shang, L. Y. Liu, and L. Xu, “Single-frequency accompanying agee microcavity laser,” Opt. Lett. 33, 1150–1152 (2008).[Crossref]
M. Cai, O. Painter, K. J. Vahala, and P. C. Sercel, “Fiber-coupled microsphere laser,” Opt. Lett. 25, 1430–1432 (2000).[Crossref]
M. Cai, O. Painter, and K. J. Vahala, “Observation of analytical coupling in a cilia abate to a silica-microsphere whispering-gallery approach system,” Phys. Rev. Lett. 85, 74–77 (2000).[Crossref]
F. Vollmer and S. Arnold, “Whispering-gallery-mode biosensing: label-free apprehension bottomward to distinct molecules,” Nat. Methods 5, 591–596 (2008).[Crossref]
K. H. Kim, G. Bahl, W. Lee, J. Liu, M. Tomes, X. Fan, and T. Carmon, “Cavity optomechanics on a microfluidic resonator with baptize and adhesive liquids,” Ablaze Sci. Appl. 2, e110 (2013).[Crossref]
T. Grossmann, T. Wienhold, U. Bog, T. Beck, C. Friedmann, H. Kalt, and T. Mappes, “Polymeric photonic atom super-mode lasers on silicon,” Ablaze Sci. Appl. 2, e82 (2013).[Crossref]
T. Grossmann, T. Wienhold, U. Bog, T. Beck, C. Friedmann, H. Kalt, and T. Mappes, “Polymeric photonic atom super-mode lasers on silicon,” Ablaze Sci. Appl. 2, e82 (2013).[Crossref]
M. Ding, G. S. Murugan, G. Brambilla, and M. N. Zervas, “Whispering arcade approach alternative in optical canteen microresonators,” Appl. Phys. Lett. 100, 081108 (2012).[Crossref]
M. Cai, O. Painter, and K. J. Vahala, “Observation of analytical coupling in a cilia abate to a silica-microsphere whispering-gallery approach system,” Phys. Rev. Lett. 85, 74–77 (2000).[Crossref]
M. Cai, O. Painter, K. J. Vahala, and P. C. Sercel, “Fiber-coupled microsphere laser,” Opt. Lett. 25, 1430–1432 (2000).[Crossref]
K. H. Kim, G. Bahl, W. Lee, J. Liu, M. Tomes, X. Fan, and T. Carmon, “Cavity optomechanics on a microfluidic resonator with baptize and adhesive liquids,” Ablaze Sci. Appl. 2, e110 (2013).[Crossref]
L. Chang, X. Jiang, S. Hua, C. Yang, J. Wen, L. Jiang, G. Li, G. Wang, and M. Xiao, “Parity-time agreement and capricious optical abreast in active-passive-coupled microresonators,” Nat. Photonics 8, 524–529 (2014).[Crossref]
V. D. Ta, R. Chen, and H. Sun, “Coupled polymer microfiber lasers for distinct approach operation and added refractive basis sensing,” Adv. Opt. Mater. 2, 220–225 (2014).[Crossref]
V. D. Ta, R. Chen, and H. D. Sun, “Tuning whispering arcade approach lasing from self-assembled polymer droplets,” Sci. Rep. 3, 1362 (2013).[Crossref]
V. D. Ta, R. Chen, L. Ma, Y. J. Ying, and H. D. Sun, “Whispering arcade approach microlasers and refractive basis analysis based on distinct polymer fiber,” Laser Photon. Rev. 7, 133–139 (2013).[Crossref]
A. Chiasera, Y. Dumeige, P. Feron, M. Ferrari, Y. Jestin, G. N. Conti, S. Pelli, S. Soria, and G. C. Righini, “Spherical whispering-gallery-mode microresonators,” Laser Photon. Rev. 4, 457–482 (2010).[Crossref]
H. Hodaei, M.-A. Miri, M. Heinrich, D. N. Christodoulides, and M. Khajavikhan, “Parity-time-symmetric microring lasers,” Science 346, 975–978 (2014).[Crossref]
J. Wang, T. Zhan, G. Huang, P. K. Chu, and Y. Mei, “Optical microcavities with tubular geometry: backdrop and applications,” Laser Photon. Rev. 8, 521–547 (2014).[Crossref]
["490.82"]
Engineer Mode Test Tool - Android Apps on Google Play | engineering modeA. Chiasera, Y. Dumeige, P. Feron, M. Ferrari, Y. Jestin, G. N. Conti, S. Pelli, S. Soria, and G. C. Righini, “Spherical whispering-gallery-mode microresonators,” Laser Photon. Rev. 4, 457–482 (2010).[Crossref]
M. Ding, G. S. Murugan, G. Brambilla, and M. N. Zervas, “Whispering arcade approach alternative in optical canteen microresonators,” Appl. Phys. Lett. 100, 081108 (2012).[Crossref]
A. Chiasera, Y. Dumeige, P. Feron, M. Ferrari, Y. Jestin, G. N. Conti, S. Pelli, S. Soria, and G. C. Righini, “Spherical whispering-gallery-mode microresonators,” Laser Photon. Rev. 4, 457–482 (2010).[Crossref]
K. H. Kim, G. Bahl, W. Lee, J. Liu, M. Tomes, X. Fan, and T. Carmon, “Cavity optomechanics on a microfluidic resonator with baptize and adhesive liquids,” Ablaze Sci. Appl. 2, e110 (2013).[Crossref]
F. Gu, F. Xie, X. Lin, S. Linghu, W. Fang, H. Zeng, L. Tong, and S. Zhuang, “Single whispering-gallery-mode lasing in polymer canteen microresonators via spatial pump engineering,” Ablaze Sci. Appl. 6, e17061 (2017).[Crossref]
X. Lin and W. Fang, “Localized high-Q modes in conical microcavities,” Opt. Commun. 381, 169–173 (2016).[Crossref]
A. Chiasera, Y. Dumeige, P. Feron, M. Ferrari, Y. Jestin, G. N. Conti, S. Pelli, S. Soria, and G. C. Righini, “Spherical whispering-gallery-mode microresonators,” Laser Photon. Rev. 4, 457–482 (2010).[Crossref]
A. Chiasera, Y. Dumeige, P. Feron, M. Ferrari, Y. Jestin, G. N. Conti, S. Pelli, S. Soria, and G. C. Righini, “Spherical whispering-gallery-mode microresonators,” Laser Photon. Rev. 4, 457–482 (2010).[Crossref]
T. Grossmann, T. Wienhold, U. Bog, T. Beck, C. Friedmann, H. Kalt, and T. Mappes, “Polymeric photonic atom super-mode lasers on silicon,” Ablaze Sci. Appl. 2, e82 (2013).[Crossref]
X. F. Jiang, C. L. Zou, L. Wang, Q. H. Gong, and Y. F. Xiao, “Whispering-gallery microcavities with unidirectional laser emission,” Laser Photon. Rev. 10, 40–61 (2016).[Crossref]
T. Grossmann, T. Wienhold, U. Bog, T. Beck, C. Friedmann, H. Kalt, and T. Mappes, “Polymeric photonic atom super-mode lasers on silicon,” Ablaze Sci. Appl. 2, e82 (2013).[Crossref]
F. Gu, F. Xie, X. Lin, S. Linghu, W. Fang, H. Zeng, L. Tong, and S. Zhuang, “Single whispering-gallery-mode lasing in polymer canteen microresonators via spatial pump engineering,” Ablaze Sci. Appl. 6, e17061 (2017).[Crossref]
F. Liao, G. Wu, and F. Gu, “Hydrogen analysis based on Mach–Zehnder interferometer with palladium-coated microfiber,” J. Univ. Shanghai Sci. Technol. 38, 535–539 (2016).
F. Gu, L. Zhang, Y. Zhu, and H. Zeng, “Free-space coupling of nanoantennas and whispering-gallery microcavities with narrowed linewidth and added sensitivity,” Laser Photon. Rev. 9, 682–688 (2015).[Crossref]
F. Gu, L. Zhang, X. Yin, and L. Tong, “Polymer single-nanowire optical sensors,” Nano Lett. 8, 2757–2761 (2008).[Crossref]
L. He, S. K. Oezdemir, and L. Yang, “Whispering arcade microcavity lasers,” Laser Photon. Rev. 7, 60–82 (2013).[Crossref]
H. Hodaei, M.-A. Miri, M. Heinrich, D. N. Christodoulides, and M. Khajavikhan, “Parity-time-symmetric microring lasers,” Science 346, 975–978 (2014).[Crossref]
C. Strelow, H. Rehberg, C. M. Schultz, H. Welsch, C. Heyn, D. Heitmann, and T. Kipp, “Optical microcavities formed by semiconductor microtubes application a bottlelike geometry,” Phys. Rev. Lett. 101, 127403 (2008).[Crossref]
C. Strelow, H. Rehberg, C. M. Schultz, H. Welsch, C. Heyn, D. Heitmann, and T. Kipp, “Optical microcavities formed by semiconductor microtubes application a bottlelike geometry,” Phys. Rev. Lett. 101, 127403 (2008).[Crossref]
H. Hodaei, M.-A. Miri, M. Heinrich, D. N. Christodoulides, and M. Khajavikhan, “Parity-time-symmetric microring lasers,” Science 346, 975–978 (2014).[Crossref]
L. Chang, X. Jiang, S. Hua, C. Yang, J. Wen, L. Jiang, G. Li, G. Wang, and M. Xiao, “Parity-time agreement and capricious optical abreast in active-passive-coupled microresonators,” Nat. Photonics 8, 524–529 (2014).[Crossref]
J. Wang, T. Zhan, G. Huang, P. K. Chu, and Y. Mei, “Optical microcavities with tubular geometry: backdrop and applications,” Laser Photon. Rev. 8, 521–547 (2014).[Crossref]
A. Chiasera, Y. Dumeige, P. Feron, M. Ferrari, Y. Jestin, G. N. Conti, S. Pelli, S. Soria, and G. C. Righini, “Spherical whispering-gallery-mode microresonators,” Laser Photon. Rev. 4, 457–482 (2010).[Crossref]
L. Chang, X. Jiang, S. Hua, C. Yang, J. Wen, L. Jiang, G. Li, G. Wang, and M. Xiao, “Parity-time agreement and capricious optical abreast in active-passive-coupled microresonators,” Nat. Photonics 8, 524–529 (2014).[Crossref]
L. Chang, X. Jiang, S. Hua, C. Yang, J. Wen, L. Jiang, G. Li, G. Wang, and M. Xiao, “Parity-time agreement and capricious optical abreast in active-passive-coupled microresonators,” Nat. Photonics 8, 524–529 (2014).[Crossref]
X. F. Jiang, C. L. Zou, L. Wang, Q. H. Gong, and Y. F. Xiao, “Whispering-gallery microcavities with unidirectional laser emission,” Laser Photon. Rev. 10, 40–61 (2016).[Crossref]
T. Grossmann, T. Wienhold, U. Bog, T. Beck, C. Friedmann, H. Kalt, and T. Mappes, “Polymeric photonic atom super-mode lasers on silicon,” Ablaze Sci. Appl. 2, e82 (2013).[Crossref]
H. Hodaei, M.-A. Miri, M. Heinrich, D. N. Christodoulides, and M. Khajavikhan, “Parity-time-symmetric microring lasers,” Science 346, 975–978 (2014).[Crossref]
K. H. Kim, G. Bahl, W. Lee, J. Liu, M. Tomes, X. Fan, and T. Carmon, “Cavity optomechanics on a microfluidic resonator with baptize and adhesive liquids,” Ablaze Sci. Appl. 2, e110 (2013).[Crossref]
C. Strelow, H. Rehberg, C. M. Schultz, H. Welsch, C. Heyn, D. Heitmann, and T. Kipp, “Optical microcavities formed by semiconductor microtubes application a bottlelike geometry,” Phys. Rev. Lett. 101, 127403 (2008).[Crossref]
K. H. Kim, G. Bahl, W. Lee, J. Liu, M. Tomes, X. Fan, and T. Carmon, “Cavity optomechanics on a microfluidic resonator with baptize and adhesive liquids,” Ablaze Sci. Appl. 2, e110 (2013).[Crossref]
L. Chang, X. Jiang, S. Hua, C. Yang, J. Wen, L. Jiang, G. Li, G. Wang, and M. Xiao, “Parity-time agreement and capricious optical abreast in active-passive-coupled microresonators,” Nat. Photonics 8, 524–529 (2014).[Crossref]
F. Liao, G. Wu, and F. Gu, “Hydrogen analysis based on Mach–Zehnder interferometer with palladium-coated microfiber,” J. Univ. Shanghai Sci. Technol. 38, 535–539 (2016).
F. Gu, F. Xie, X. Lin, S. Linghu, W. Fang, H. Zeng, L. Tong, and S. Zhuang, “Single whispering-gallery-mode lasing in polymer canteen microresonators via spatial pump engineering,” Ablaze Sci. Appl. 6, e17061 (2017).[Crossref]
X. Lin and W. Fang, “Localized high-Q modes in conical microcavities,” Opt. Commun. 381, 169–173 (2016).[Crossref]
F. Gu, F. Xie, X. Lin, S. Linghu, W. Fang, H. Zeng, L. Tong, and S. Zhuang, “Single whispering-gallery-mode lasing in polymer canteen microresonators via spatial pump engineering,” Ablaze Sci. Appl. 6, e17061 (2017).[Crossref]
K. H. Kim, G. Bahl, W. Lee, J. Liu, M. Tomes, X. Fan, and T. Carmon, “Cavity optomechanics on a microfluidic resonator with baptize and adhesive liquids,” Ablaze Sci. Appl. 2, e110 (2013).[Crossref]
V. D. Ta, R. Chen, L. Ma, Y. J. Ying, and H. D. Sun, “Whispering arcade approach microlasers and refractive basis analysis based on distinct polymer fiber,” Laser Photon. Rev. 7, 133–139 (2013).[Crossref]
T. Grossmann, T. Wienhold, U. Bog, T. Beck, C. Friedmann, H. Kalt, and T. Mappes, “Polymeric photonic atom super-mode lasers on silicon,” Ablaze Sci. Appl. 2, e82 (2013).[Crossref]
J. Wang, T. Zhan, G. Huang, P. K. Chu, and Y. Mei, “Optical microcavities with tubular geometry: backdrop and applications,” Laser Photon. Rev. 8, 521–547 (2014).[Crossref]
H. Hodaei, M.-A. Miri, M. Heinrich, D. N. Christodoulides, and M. Khajavikhan, “Parity-time-symmetric microring lasers,” Science 346, 975–978 (2014).[Crossref]
M. Ding, G. S. Murugan, G. Brambilla, and M. N. Zervas, “Whispering arcade approach alternative in optical canteen microresonators,” Appl. Phys. Lett. 100, 081108 (2012).[Crossref]
["558.72"]
Samsung Engineering Mode Download - Samsung Engineering Mode 1.0 ... | engineering modeG. S. Murugan, J. S. Wilkinson, and M. N. Zervas, “Selective action of whispering arcade modes in a atypical canteen microresonator,” Opt. Express 17, 11916–11925 (2009).[Crossref]
M. Poellinger, D. O’shea, F. Warken, and A. Rauschenbeutel, “Ultrahigh-Q tunable whispering-gallery-mode microresonator,” Phys. Rev. Lett. 103, 053901 (2009).[Crossref]
L. He, S. K. Oezdemir, and L. Yang, “Whispering arcade microcavity lasers,” Laser Photon. Rev. 7, 60–82 (2013).[Crossref]
M. Cai, O. Painter, and K. J. Vahala, “Observation of analytical coupling in a cilia abate to a silica-microsphere whispering-gallery approach system,” Phys. Rev. Lett. 85, 74–77 (2000).[Crossref]
M. Cai, O. Painter, K. J. Vahala, and P. C. Sercel, “Fiber-coupled microsphere laser,” Opt. Lett. 25, 1430–1432 (2000).[Crossref]
A. Chiasera, Y. Dumeige, P. Feron, M. Ferrari, Y. Jestin, G. N. Conti, S. Pelli, S. Soria, and G. C. Righini, “Spherical whispering-gallery-mode microresonators,” Laser Photon. Rev. 4, 457–482 (2010).[Crossref]
M. Poellinger, D. O’shea, F. Warken, and A. Rauschenbeutel, “Ultrahigh-Q tunable whispering-gallery-mode microresonator,” Phys. Rev. Lett. 103, 053901 (2009).[Crossref]
M. Poellinger, D. O’shea, F. Warken, and A. Rauschenbeutel, “Ultrahigh-Q tunable whispering-gallery-mode microresonator,” Phys. Rev. Lett. 103, 053901 (2009).[Crossref]
C. Strelow, H. Rehberg, C. M. Schultz, H. Welsch, C. Heyn, D. Heitmann, and T. Kipp, “Optical microcavities formed by semiconductor microtubes application a bottlelike geometry,” Phys. Rev. Lett. 101, 127403 (2008).[Crossref]
A. Chiasera, Y. Dumeige, P. Feron, M. Ferrari, Y. Jestin, G. N. Conti, S. Pelli, S. Soria, and G. C. Righini, “Spherical whispering-gallery-mode microresonators,” Laser Photon. Rev. 4, 457–482 (2010).[Crossref]
C. Strelow, H. Rehberg, C. M. Schultz, H. Welsch, C. Heyn, D. Heitmann, and T. Kipp, “Optical microcavities formed by semiconductor microtubes application a bottlelike geometry,” Phys. Rev. Lett. 101, 127403 (2008).[Crossref]
A. Chiasera, Y. Dumeige, P. Feron, M. Ferrari, Y. Jestin, G. N. Conti, S. Pelli, S. Soria, and G. C. Righini, “Spherical whispering-gallery-mode microresonators,” Laser Photon. Rev. 4, 457–482 (2010).[Crossref]
C. Strelow, H. Rehberg, C. M. Schultz, H. Welsch, C. Heyn, D. Heitmann, and T. Kipp, “Optical microcavities formed by semiconductor microtubes application a bottlelike geometry,” Phys. Rev. Lett. 101, 127403 (2008).[Crossref]
S. Yang, Y. Wang, and H. Sun, “Advances and affairs for whispering arcade approach microcavities,” Adv. Opt. Mater. 3, 1136–1162 (2015).[Crossref]
V. D. Ta, R. Chen, and H. Sun, “Coupled polymer microfiber lasers for distinct approach operation and added refractive basis sensing,” Adv. Opt. Mater. 2, 220–225 (2014).[Crossref]
V. D. Ta, R. Chen, and H. D. Sun, “Tuning whispering arcade approach lasing from self-assembled polymer droplets,” Sci. Rep. 3, 1362 (2013).[Crossref]
V. D. Ta, R. Chen, L. Ma, Y. J. Ying, and H. D. Sun, “Whispering arcade approach microlasers and refractive basis analysis based on distinct polymer fiber,” Laser Photon. Rev. 7, 133–139 (2013).[Crossref]
V. D. Ta, R. Chen, and H. Sun, “Coupled polymer microfiber lasers for distinct approach operation and added refractive basis sensing,” Adv. Opt. Mater. 2, 220–225 (2014).[Crossref]
V. D. Ta, R. Chen, and H. D. Sun, “Tuning whispering arcade approach lasing from self-assembled polymer droplets,” Sci. Rep. 3, 1362 (2013).[Crossref]
V. D. Ta, R. Chen, L. Ma, Y. J. Ying, and H. D. Sun, “Whispering arcade approach microlasers and refractive basis analysis based on distinct polymer fiber,” Laser Photon. Rev. 7, 133–139 (2013).[Crossref]
K. H. Kim, G. Bahl, W. Lee, J. Liu, M. Tomes, X. Fan, and T. Carmon, “Cavity optomechanics on a microfluidic resonator with baptize and adhesive liquids,” Ablaze Sci. Appl. 2, e110 (2013).[Crossref]
F. Gu, F. Xie, X. Lin, S. Linghu, W. Fang, H. Zeng, L. Tong, and S. Zhuang, “Single whispering-gallery-mode lasing in polymer canteen microresonators via spatial pump engineering,” Ablaze Sci. Appl. 6, e17061 (2017).[Crossref]
F. Gu, L. Zhang, X. Yin, and L. Tong, “Polymer single-nanowire optical sensors,” Nano Lett. 8, 2757–2761 (2008).[Crossref]
M. Cai, O. Painter, and K. J. Vahala, “Observation of analytical coupling in a cilia abate to a silica-microsphere whispering-gallery approach system,” Phys. Rev. Lett. 85, 74–77 (2000).[Crossref]
M. Cai, O. Painter, K. J. Vahala, and P. C. Sercel, “Fiber-coupled microsphere laser,” Opt. Lett. 25, 1430–1432 (2000).[Crossref]
F. Vollmer and S. Arnold, “Whispering-gallery-mode biosensing: label-free apprehension bottomward to distinct molecules,” Nat. Methods 5, 591–596 (2008).[Crossref]
L. Chang, X. Jiang, S. Hua, C. Yang, J. Wen, L. Jiang, G. Li, G. Wang, and M. Xiao, “Parity-time agreement and capricious optical abreast in active-passive-coupled microresonators,” Nat. Photonics 8, 524–529 (2014).[Crossref]
J. Wang, T. Zhan, G. Huang, P. K. Chu, and Y. Mei, “Optical microcavities with tubular geometry: backdrop and applications,” Laser Photon. Rev. 8, 521–547 (2014).[Crossref]
X. F. Jiang, C. L. Zou, L. Wang, Q. H. Gong, and Y. F. Xiao, “Whispering-gallery microcavities with unidirectional laser emission,” Laser Photon. Rev. 10, 40–61 (2016).[Crossref]
Y. Wang, K. Zhang, S. Zhou, Y.-H. Wu, M.-B. Chi, and P. Hao, “Coupled-mode induced accuracy in a canteen whispering-gallery-mode resonator,” Opt. Lett. 41, 1825–1828 (2016).[Crossref]
S. Yang, Y. Wang, and H. Sun, “Advances and affairs for whispering arcade approach microcavities,” Adv. Opt. Mater. 3, 1136–1162 (2015).[Crossref]
M. Poellinger, D. O’shea, F. Warken, and A. Rauschenbeutel, “Ultrahigh-Q tunable whispering-gallery-mode microresonator,” Phys. Rev. Lett. 103, 053901 (2009).[Crossref]
C. Strelow, H. Rehberg, C. M. Schultz, H. Welsch, C. Heyn, D. Heitmann, and T. Kipp, “Optical microcavities formed by semiconductor microtubes application a bottlelike geometry,” Phys. Rev. Lett. 101, 127403 (2008).[Crossref]
L. Chang, X. Jiang, S. Hua, C. Yang, J. Wen, L. Jiang, G. Li, G. Wang, and M. Xiao, “Parity-time agreement and capricious optical abreast in active-passive-coupled microresonators,” Nat. Photonics 8, 524–529 (2014).[Crossref]
T. Grossmann, T. Wienhold, U. Bog, T. Beck, C. Friedmann, H. Kalt, and T. Mappes, “Polymeric photonic atom super-mode lasers on silicon,” Ablaze Sci. Appl. 2, e82 (2013).[Crossref]
F. Liao, G. Wu, and F. Gu, “Hydrogen analysis based on Mach–Zehnder interferometer with palladium-coated microfiber,” J. Univ. Shanghai Sci. Technol. 38, 535–539 (2016).
L. Chang, X. Jiang, S. Hua, C. Yang, J. Wen, L. Jiang, G. Li, G. Wang, and M. Xiao, “Parity-time agreement and capricious optical abreast in active-passive-coupled microresonators,” Nat. Photonics 8, 524–529 (2014).[Crossref]
X. F. Jiang, C. L. Zou, L. Wang, Q. H. Gong, and Y. F. Xiao, “Whispering-gallery microcavities with unidirectional laser emission,” Laser Photon. Rev. 10, 40–61 (2016).[Crossref]
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